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Windows APT Warfare
Windows APT Warfare

Windows APT Warfare: Identify and prevent Windows APT attacks effectively

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Windows APT Warfare

From Source to Binaries – The Journey of a C Program

In this chapter, we will learn the basics of how compilers package EXE binaries from C code and techniques for system processes to execute. These basic concepts will build your understanding of how Windows compiles C into programs and links them across system components. You will also understand the program structure and workflow that malware analysis and evasion detection should follow.

In this chapter, we’re going to cover the following main topics:

  • The simplest Windows program in C
  • C compiler – assembly code generation
  • Assembler – transforming assembly code into machine code
  • Compiling code
  • Windows linker – packing binary data into Portable Executable (PE) format
  • Running compiled PE executable files as dynamic processes

The simplest Windows program in C

Any software is designed with some functionality in mind. This functionality could include tasks such as reading external inputs, processing them in the way the engineer expects them to be processed, or accomplishing a specific function or task. All of these actions require interaction with the underlying operating system (OS). A program, in order to interact with the underlying OS, must call system functions. It might be nearly impossible to design a meaningful program that does not use any system calls.

In addition to that, in Windows, the programmer, when compiling a C program, needs to specify a subsystem (you can read more about it at https://docs.microsoft.com/en-us/cpp/build/reference/subsystem-specify-subsystem); windows and console are probably the two of the most common ones.

Let’s look at a simple example of a C program for Windows:

#include <Windows.h>
Int main(void) {
MessageBoxA(0, "hi there.", "info", 0);
return 0;
}

Presented here is the most simplified C program for Windows. Its purpose is to call the USER32!MessageBox() function at the entry point of the main() function to pop up a window with the info title and the hi there content.

C compiler – assembly code generation

What is intriguing to understand in the previous section is the reason the compiler understands this C code. First, the main task for the compiler is to convert the C code into assembly code according to the C/C++ calling convention, as shown in Figure 1.1:

Figure 1.1 – x86 calling convention

Figure 1.1 – x86 calling convention

Important note

For convenience and practicability, the following examples will be presented with x86 instructions. However, the methods and principles described in this book are common to all Windows systems, and the compiler examples are based on GNU Compiler Collection (GCC) for Windows (MinGW).

As different system functions (and even third-party modules) have the expected in-memory access to the memory level of the assembly code, there are several mainstream application binary interface (ABI) calling conventions for ease of management. Interested readers can refer to Argument Passing and Naming Conventions by Microsoft (https://docs.microsoft.com/en-us/cpp/cpp/argument-passing-and-naming-conventions).

These calling conventions mainly deal with several issues:

  • The position where the parameters are placed in order (e.g., on a stack, in a register such as ECX, or mixed to speed up performance)
  • The memory space occupied by parameters if parameters are need to be stored
  • The occupied memory to be released by the caller or callee

When the compiler generates the assembly code, it will recognize the calling conventions of the system, arrange the parameters in memory according to its preference, and then call the memory address of the function with the call command. Therefore, when the thread jumps into the system instruction, it can correctly obtain the function parameter at its expected memory address.

Take Figure 1.1 as an example: we know that the USER32!MessageBoxA function prefers WINAPI calling conventions. In this calling convention, the parameter content is pushed into the stack from right to left, and the memory released for this calling convention is chosen by the callee. So after pushing 4 parameters into the stack to occupy 16 bytes in the stack (sizeof(uint32_t) x 4), it will be executed in USER32!MessageBoxA. After executing the function request, return to the next line of the Call MessageBoxA instruction with ret 0x10 and release 16 bytes of memory space from the stack (i.e., xor eax, eax).

Important note

The book here only focuses on the process of how the compiler generates single-chip instructions and encapsulates the program into an executable file. It does not include the important parts of advanced compiler theory, such as semantic tree generation and compiler optimization. These parts are reserved for readers to explore for further learning.

In this section, we learned about the C/C++ calling convention, how parameters are placed in memory in order, and how memory space is released when the program is finished.

Assembler – transforming assembly code into machine code

At this moment, you may notice that something is not quite right. The processor chips we use every day are not capable of executing text-based assembly code but are instead parsed into the machine code of the corresponding instruction set to perform the corresponding memory operations. Thus, during the compiling process, the previously mentioned assembly code is converted by the assembler into the machine code that can be understood by the chip.

Figure 1.2 shows the dynamic memory distribution of the 32-bit PE:

Figure 1.2 – 32-bit PE memory layout

Figure 1.2 – 32-bit PE memory layout

Since the chip cannot directly parse strings such as hi there or info, data (such as global variables, static strings, global arrays, etc.) is first stored in a separate structure called a section. Each section is created with an offset address where it is expected to be placed. If the code later needs to extract resources identified during these compilation periods, the corresponding data can be obtained from the corresponding offset addresses. Here is an example:

  • The aforementioned info string can be expressed as \x69\x6E\x66\x6F\x00 in ASCII code (5 bytes in total with null at the end of the string). The binary data of this string can be stored at the beginning of the .rdata section. Similarly, the hi there string can be stored closely after the previous string at the address of the .rdata section at offset +5.
  • In fact, the aforementioned call MessageBoxA API is not understood by the chip. Therefore, the compiler will generate an Import Address Table struct, which is the .idata section, to hold the address of the system function that the current program wants to call. When needed by the program, the corresponding function address can be extracted from this table, enabling the thread to jump to the function address and continue executing the system function.
  • Generally speaking, it is the compiler’s practice to store the code content in the .text section.
  • Each individual running process does not have just one PE module. Either *.EXE or *.DLL mounted in the process memory is packaged in PE format.
  • In practice, each module loaded into the memory must be assigned an image base address to hold all contents of the module. In the case of a 32-bit *.EXE, the image base address would normally be 0x400000.
  • The absolute address of each piece of data in the dynamic memory will be the image base address of this module + the section offset + the offset of the data on the section. Take the 0x400000 image base address as an example. If we want to get the info string, the expected content will be placed at 0x402000 (0x400000 + 0x2000 + 0x00). Similarly, hi there would be at 0x402005, and the MessageBoxA pointer would be stored at 0x403018.

Important note

There is no guarantee that the compiler will generate .text, .rdata, and .idata sections in practice, or that their respective uses will be for these functions. Most compilers follow the previously mentioned principles to allocate memory. Visual Studio compilers, for example, do not produce executable programs with .idata sections to hold function pointer tables, but rather, in readable and writable .rdata sections.

What is here is only a rough understanding of the properties of block and absolute addressing in the dynamic memory; it is not necessary to be obsessed with understanding the content, attributes, and how to fill them correctly in practice. The following chapters will explain the meaning of each structure in detail and how to design it by yourself.

In this section, we learned about the transformation to machine code operations during program execution, as well as the various sections and offsets of data stored in memory that can be accessed later in the compiling process.

Compiling code

As mentioned earlier, if the code contains chip-incomprehensible strings or text-based functions, the compiler must first convert them to absolute addresses that the chip can understand and then store them in separate sections. It is also necessary to translate the textual script into native code or machine code that the chip can recognize. How does this work in practice?

In the case of Windows x86, the instructions executed on the assembly code are translated according to the x86 instruction set. The textual instructions are translated and encoded into machine code that the chip understands. Interested readers can search for x86 Instruction Set on Google to find the full instruction table or even encode it manually without relying on a compiler.

Once the compiler has completed the aforementioned block packaging, the next stage is to extract and encode the textual instructions from the script, one by one, according to the x86 instruction set, and write them into the .text section that is used to store the machine code.

As shown in Figure 1.3, the dashed box is the assembly code in the text type obtained from compiling the C/C++ code:

Figure 1.3 – Native code generation

Figure 1.3 – Native code generation

You can see the first instruction is push 0, which pushes 1 byte of data onto the stack (saved as 4 bytes), and 6A 00 is used to represent this instruction. The push 0x402005 instruction pushes 4 bytes onto the stack at once, so push 68 50 20 40 00 is used to achieve a longer push. call ds:[0x403018] is the address of the 4 bytes, and the long call of machine code, FF 15 18 30 40 00, is used to represent this instruction.

Although Figure 1.3 shows the memory distribution of the dynamic msgbox.exe file, the file produced by the compiler is not yet an executable PE file. Rather, it is a file called a Common Object File Format (COFF) or an object file, as some people call it, which is a wrapper file specifically designed to record the various sections produced by the compiler. The following figure shows the COFF file obtained by compiling and assembling the source code with the gcc -c command, and viewing its structure with a well-known tool, PEview.

As shown in Figure 1.4, there is an IMAGE_FILE_HEADER structure at the beginning of the COFF file to record how many sections are included:

Figure 1.4 – COFF

Figure 1.4 – COFF

At the end of this structure is a whole array of IMAGE_SECTION_HEADER to record the current location and size of the content of each section in the file. Closely attached at the end of this array is the substantive content of each section. In practice, the first section will usually be the content of the .text section.

In the next stage, the Linker is responsible for adding an extra piece of the COFF file to the application loader, which will become our common EXE program.

Important note

In the case of x86 chip systems, it is customary to reverse the pointer and digit per bit into the memory when encoding. This practice is called little-endian, as opposed to a string or array that should be arranged from lowest to highest address. The data arrangement of multiple bytes varies according to the chip architecture. Interested readers can refer to the article How to write endian-independent code in C (https://developer.ibm.com/articles/au-endianc/).

In this section, we learned about the COFF, which is used to record the contents in the memory of the various sections recorded by the compiler.

Windows linker – packing binary data into PE format

In the previous section, we assumed some memory distribution during the program's compilation. For example, the default EXE module image base should be at 0x400000 so that executable content should be placed. The .text section should be placed at 0x401000 above its image base. As we said, the .idata section is used to store the import address table, so the question is who or what is responsible for filling the import address table?

The answer is that every OS has an application loader, which is designed to fill all these tasks correctly when creating a process from a static program. However, there is a lot of information that will only be known at the compiling time and not by the system developer, such as the following:

  • Does the program want to enable Address Space Layout Randomization (ASLR) or Data Execution Prevention (DEP)?
  • Where is the main(int, char) function in the .text section written by the developer?
  • How much of the total memory is used by the execution module during the dynamic phase?

Microsoft has therefore introduced the PE format, which is essentially an extension to the COFF file, with an additional optional header structure to record the information required by the Windows program loader to correct the process. The following chapters will focus on playing with the various structures of the PE format so that you can write an executable file by hand on a whiteboard.

All you need to know now is that a PE executable has some key features:

  • Code content: Usually stored as machine code in the .text section
  • Import address tables: To allow the loader to fill in the function addresses and enable the program to get them correctly
  • Optional header: This structure allows the loader to read and know how to correct the current dynamic module

Here is an example in Figure 1.5:

Figure 1.5 – Minimalist architecture of the program

Figure 1.5 – Minimalist architecture of the program

msgbox.exe is a minimalist Windows program with only three sections: .text, .rdata, and .idata. After dynamic execution, the system application loader sequentially extracts the content of the three sections and writes them each to the offset of 0x1000, 0x2000, and 0x3000 relative to the current PE module (msgbox.exe).

In this section, we learned that the application loader is responsible for correcting and filling the program content to create a static program file into a process.

Running static PE files as dynamic processes

At this point, you have a general idea of how a minimal program is generated, compiled, and packaged into an executable file by the compiler in the static phase. So, the next question is, What does the OS do to get a static program running?

Figure 1.6 shows the process structure of how an EXE program is transformed from a static to a dynamic process under the Windows system:

Figure 1.6 – Dynamic operation of the process hatching flow

Figure 1.6 – Dynamic operation of the process hatching flow

Note that this is different from the process hatching process in the latest version of Windows. For the sake of explanation, we'll ignore the processes of privilege escalation, the patching mechanism, and kernel generation, and only talk about how a static program is correctly parsed and run from a single execution.

On Windows systems, all processes must be hatched by the parent process by interrupting the system function to jump to the kernel level. For example, a parent process is currently trying to run the cmd.exe /c whoami command, which is an attempt to hatch the cmd.exe static file into a dynamic process and assign its parameters to /c whoami.

So, what happens in the whole process? As shown in Figure 1.6, these are the steps:

  1. The parent process makes a request to the kernel with CreateProcess, specifying to generate a new process (child process).
  2. Next, the kernel will produce a new process container and fill the execution code into the container with file mapping. The kernel will create a thread to assign to this child process, which is commonly known as the main thread or GUI thread. At the same time, the kernel will also arrange a block of memory in Userland’s dynamic memory to store two structural blocks: a process environment block (PEB) for recording the current process environment information and a thread environment block (TEB) for recording the first thread environment information. The details of these two structures will be fully introduced in Chapter 2, Process Memory – File Mapping, PE Parser, tinyLinker, and Hollowing, and in Chapter 3, Dynamic API Calling – Thread, Process, and Environment Information.
  3. The NtDLL export function, RtlUserThreadStart, is the main routing function for all threads and is responsible for the necessary initialization of each new thread, such as the generation of structured exception handling (SEH). The first thread of each process, that is, the main thread, will execute NtDLL!LdrInitializeThunk at the user level and enter the NtDLL!LdrpInitializeProcess function after the first execution. It is the executable program loader, responsible for the necessary correction of the PE module loaded into the memory.
  4. After the execution loader completes its correction, it jumps back to the current execution entry (AddressOfEntryPoint), which is the developer’s main function.

Important note

From a code perspective, a thread can be thought of as a person responsible for executing code, and a process can be thought of as a container for loading code.

The kernel layer is responsible for file mapping, which is the process of placing the program content based on the preferred address during the compiling period. For example, if the image base address is 0x400000 and the .text offset is 0x1000, then the file mapping process is essentially a simple matter of requesting a block of memory at the 0x400000 address in the dynamic memory and writing the actual contents of .text to 0x401000.

In fact, the loader function (NtDLL! LdrpInitializeProcess) does not directly call AddressOfEntryPoint after execution; instead, the tasks corrected by the loader and the entry point are treated as two separate threads (in practice, two thread contexts will be opened). NtDLL!NtContinue will be called after the correction and will hand over the task to the entry to continue execution as a thread task schedule.

The entry point of the execution is recorded in NtHeaders→OptionalHeader.AddressOfEntryPoint of the PE structure, but it is not directly equivalent to the main function of the developer. This is for your understanding only. Generally speaking, AddressOfEntryPoint points to the CRTStartup function (C++ Runtime Startup), which is responsible for a series of C/C++ necessity initialization preparations (e.g., cutting arguments into developer-friendly argc and argv inputs, etc.) before calling the developer’s main function.

In this section, we learned how EXE files are incubated from static to dynamically running processes on the Windows system. With the process and thread, and the necessary initialization actions, the program is ready to run.

Summary

In this chapter, we explained how the OS converts C code into assembly code via a compiler and into executable programs via a linker.

The next chapter will be based on this framework and will take you through a hands-on experience of the entire flowchart in several C/C++ labs. Through the following chapters, you will learn the subtleties of PE format design by building a compact program loader and writing an executable program yourself.

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Key benefits

  • Understand how malware evades modern security products
  • Learn to reverse engineer standard PE format program files
  • Become familiar with modern attack techniques used by multiple red teams

Description

An Advanced Persistent Threat (APT) is a severe form of cyberattack that lies low in the system for a prolonged time and locates and then exploits sensitive information. Preventing APTs requires a strong foundation of basic security techniques combined with effective security monitoring. This book will help you gain a red team perspective on exploiting system design and master techniques to prevent APT attacks. Once you’ve understood the internal design of operating systems, you’ll be ready to get hands-on with red team attacks and, further, learn how to create and compile C source code into an EXE program file. Throughout this book, you’ll explore the inner workings of how Windows systems run and how attackers abuse this knowledge to bypass antivirus products and protection. As you advance, you’ll cover practical examples of malware and online game hacking, such as EXE infection, shellcode development, software packers, UAC bypass, path parser vulnerabilities, and digital signature forgery, gaining expertise in keeping your system safe from this kind of malware. By the end of this book, you’ll be well equipped to implement the red team techniques that you've learned on a victim's computer environment, attempting to bypass security and antivirus products, to test its defense against Windows APT attacks.

Who is this book for?

This book is for cybersecurity professionals- especially for anyone working on Windows security, or malware researchers, network administrators, ethical hackers looking to explore Windows exploit, kernel practice, and reverse engineering. A basic understanding of reverse engineering and C/C++ will be helpful.

What you will learn

  • Explore various DLL injection techniques for setting API hooks
  • Understand how to run an arbitrary program file in memory
  • Become familiar with malware obfuscation techniques to evade antivirus detection
  • Discover how malware circumvents current security measures and tools
  • Use Microsoft Authenticode to sign your code to avoid tampering
  • Explore various strategies to bypass UAC design for privilege escalation
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Table of Contents

15 Chapters
Part 1 – Modern Windows Compiler Chevron down icon Chevron up icon
Chapter 1: From Source to Binaries – The Journey of a C Program Chevron down icon Chevron up icon
Chapter 2: Process Memory – File Mapping, PE Parser, tinyLinker, and Hollowing Chevron down icon Chevron up icon
Chapter 3: Dynamic API Calling – Thread, Process, and Environment Information Chevron down icon Chevron up icon
Part 2 – Windows Process Internals Chevron down icon Chevron up icon
Chapter 4: Shellcode Technique – Exported Function Parsing Chevron down icon Chevron up icon
Chapter 5: Application Loader Design Chevron down icon Chevron up icon
Chapter 6: PE Module Relocation Chevron down icon Chevron up icon
Part 3 – Abuse System Design and Red Team Tips Chevron down icon Chevron up icon
Chapter 7: PE to Shellcode – Transforming PE Files into Shellcode Chevron down icon Chevron up icon
Chapter 8: Software Packer Design Chevron down icon Chevron up icon
Chapter 9: Digital Signature – Authenticode Verification Chevron down icon Chevron up icon
Chapter 10: Reversing User Account Control and Bypassing Tricks Chevron down icon Chevron up icon
Index Chevron down icon Chevron up icon
Other Books You May Enjoy Chevron down icon Chevron up icon

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Aspen Nov 17, 2023
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The best Windows internal book.
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Giovanny Ortegon Feb 05, 2024
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Raymond Dec 23, 2023
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Advanced Persistent Threats and the knowledge to reverse engineer malware and recognize APT's utilizing Windows API's and malware to extract data , maintain command and control and maintain persistence in your network requires a good understanding of complex attack methodologies designed to evade even the most modern detection and security tools. This guide is absolutely the best source i have found to date to gain insight and knowledge to detect,defend and emulate APT Tactics,Techniques and Procedures.
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Panda Cow May 20, 2023
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I've taken a good amount of courses in regards to malware development and normally they give you samples of how to do something without explaining it. In the first couple of chapters I really appreciated his comparison to other tools and visualizing what you're doing with the code as well as explaining what the code is doing.My first impressions reading this book, is it's straight to the point. All the information is valuable, almost like he summarized only what's important. In a field with so many books this is hard to come by and will be appreciated. Expect to learn something new from every page, even if you've been working in Cyber Security for a good amount of time.Overall this book is excellent. I would recommend it to any serous Information Security engineer on both sides of the fence (Red and Blue).
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Andres Apr 26, 2023
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I have been studying malware development and defense evasions recently. A lot of it involves lower level programming in C/C++ and interfacing with the Windows API. Not having a good foundation in C/C++ and even less in Windows API programming I struggled to understand a lot of research and techniques I was studying. While I could do the typically "stop and go research what you don't understand process" I had hoped to find something that would help me build that foundation more quickly.I feel that this book will allow me to build that foundation more quickly. While I haven't completed the book, I have been very satisfied based on what I've read so far. The author does a great job of conveying information without unnecessary fluff. He also provides links to further reading for those who would like a deeper understanding of a particular subject.Another reason I am so satisfied with the book is its value. I've sought resources like this and most are instructor lead courses that cost thousands of dollars. Its been nearly impossible to find something that would allow me to study at my pace and at such a low cost! I'm really excited to read the remainder of the book and continue learning.
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  • If you live in Mexico, and the declared value of your ordered items is over $ 50, for you to receive a package, you will have to pay additional import tax of 19% which will be $ 9.50 to the courier service.
  • Whereas if you live in Turkey, and the declared value of your ordered items is over € 22, for you to receive a package, you will have to pay additional import tax of 18% which will be € 3.96 to the courier service.
How can I cancel my order? Chevron down icon Chevron up icon

Cancellation Policy for Published Printed Books:

You can cancel any order within 1 hour of placing the order. Simply contact customercare@packt.com with your order details or payment transaction id. If your order has already started the shipment process, we will do our best to stop it. However, if it is already on the way to you then when you receive it, you can contact us at customercare@packt.com using the returns and refund process.

Please understand that Packt Publishing cannot provide refunds or cancel any order except for the cases described in our Return Policy (i.e. Packt Publishing agrees to replace your printed book because it arrives damaged or material defect in book), Packt Publishing will not accept returns.

What is your returns and refunds policy? Chevron down icon Chevron up icon

Return Policy:

We want you to be happy with your purchase from Packtpub.com. We will not hassle you with returning print books to us. If the print book you receive from us is incorrect, damaged, doesn't work or is unacceptably late, please contact Customer Relations Team on customercare@packt.com with the order number and issue details as explained below:

  1. If you ordered (eBook, Video or Print Book) incorrectly or accidentally, please contact Customer Relations Team on customercare@packt.com within one hour of placing the order and we will replace/refund you the item cost.
  2. Sadly, if your eBook or Video file is faulty or a fault occurs during the eBook or Video being made available to you, i.e. during download then you should contact Customer Relations Team within 14 days of purchase on customercare@packt.com who will be able to resolve this issue for you.
  3. You will have a choice of replacement or refund of the problem items.(damaged, defective or incorrect)
  4. Once Customer Care Team confirms that you will be refunded, you should receive the refund within 10 to 12 working days.
  5. If you are only requesting a refund of one book from a multiple order, then we will refund you the appropriate single item.
  6. Where the items were shipped under a free shipping offer, there will be no shipping costs to refund.

On the off chance your printed book arrives damaged, with book material defect, contact our Customer Relation Team on customercare@packt.com within 14 days of receipt of the book with appropriate evidence of damage and we will work with you to secure a replacement copy, if necessary. Please note that each printed book you order from us is individually made by Packt's professional book-printing partner which is on a print-on-demand basis.

What tax is charged? Chevron down icon Chevron up icon

Currently, no tax is charged on the purchase of any print book (subject to change based on the laws and regulations). A localized VAT fee is charged only to our European and UK customers on eBooks, Video and subscriptions that they buy. GST is charged to Indian customers for eBooks and video purchases.

What payment methods can I use? Chevron down icon Chevron up icon

You can pay with the following card types:

  1. Visa Debit
  2. Visa Credit
  3. MasterCard
  4. PayPal
What is the delivery time and cost of print books? Chevron down icon Chevron up icon

Shipping Details

USA:

'

Economy: Delivery to most addresses in the US within 10-15 business days

Premium: Trackable Delivery to most addresses in the US within 3-8 business days

UK:

Economy: Delivery to most addresses in the U.K. within 7-9 business days.
Shipments are not trackable

Premium: Trackable delivery to most addresses in the U.K. within 3-4 business days!
Add one extra business day for deliveries to Northern Ireland and Scottish Highlands and islands

EU:

Premium: Trackable delivery to most EU destinations within 4-9 business days.

Australia:

Economy: Can deliver to P. O. Boxes and private residences.
Trackable service with delivery to addresses in Australia only.
Delivery time ranges from 7-9 business days for VIC and 8-10 business days for Interstate metro
Delivery time is up to 15 business days for remote areas of WA, NT & QLD.

Premium: Delivery to addresses in Australia only
Trackable delivery to most P. O. Boxes and private residences in Australia within 4-5 days based on the distance to a destination following dispatch.

India:

Premium: Delivery to most Indian addresses within 5-6 business days

Rest of the World:

Premium: Countries in the American continent: Trackable delivery to most countries within 4-7 business days

Asia:

Premium: Delivery to most Asian addresses within 5-9 business days

Disclaimer:
All orders received before 5 PM U.K time would start printing from the next business day. So the estimated delivery times start from the next day as well. Orders received after 5 PM U.K time (in our internal systems) on a business day or anytime on the weekend will begin printing the second to next business day. For example, an order placed at 11 AM today will begin printing tomorrow, whereas an order placed at 9 PM tonight will begin printing the day after tomorrow.


Unfortunately, due to several restrictions, we are unable to ship to the following countries:

  1. Afghanistan
  2. American Samoa
  3. Belarus
  4. Brunei Darussalam
  5. Central African Republic
  6. The Democratic Republic of Congo
  7. Eritrea
  8. Guinea-bissau
  9. Iran
  10. Lebanon
  11. Libiya Arab Jamahriya
  12. Somalia
  13. Sudan
  14. Russian Federation
  15. Syrian Arab Republic
  16. Ukraine
  17. Venezuela